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AIMBN RESEARCH
Research Highlights Collection
SUPPORTED BY
Editorial Board
Kenichi Arai Yoshito Kaziro Peng Li John Mattick University of Tokyo, Japan Kyoto University
Graduate School of Medicine, Japan Tsinghua University, China Institute for Molecular
Bioscience, University of Queensland, Australia Amit Sharma James Shen Chris Tan
Jeongbin Yim International Centre for Genetic Engineering and Biotechnology, India
Academia Sinica, Taiwan Institute of Molecuar and Cell Biology, Singapore Seoul National
University, Korea
Advisory Board
Shigetaka Asano Department of Chemistry and Biochemistry, Waseda University, Japan
Virander Chauhan ICGEB New Delhi, India Pham Thi Tran Chau ProteinEnzyme Laboratory,
Vietnam National University, Vietnam Robert Gallo Institute of Human Virology, USA Frank
Gannon Queensland Institute of Medical Research, Australia Benjamin Geiger Weizmann
Institute of Science, Israel Yoram Groner Weizmann Institute of Science, Israel Yi Guan
Department of Microbiology, University of Hong Kong, China Wanjin Hong Institute of
Molecular and Cell Biology, Singapore Robert Huber MaxPlanckInstitut fr Biochemie,
Germany JohE Ikeda Department of Molecular Life Sciences, Tokai University School of
Medicine, Japan Nancy Ip School of Science, Hong Kong University of Science amp
Technology, China Yoshiaki Ito Department of Medicine, National University of Singapore,
Singapore Kanyawim Kirtikara National Center for Genetic Engineering and Biotechnology,
Thailand Kiyoshi Kita School of International Health/Global Health Sciences, University of
Tokyo, Japan Kiyoshi Kurokawa National Graduate Institute for Policy Studies, Japan
Michael Lai Academia Sinica, Taiwan Kong Peng Lam Institute of Molecular and Cell
Biology, Singapore Yong Jun Liu MD Anderson, USA Peter Lobie Liggins Institute, New
Zealand Nor Muhammad Mahadi Malaysia Genome Institute, Malaysia Barry Marshall
Atsushi Miyajima Yoshikazu Nakamura Yusuke Nakamura Filipinas Natividad Nicos Nicola
Rofina Yasmin Othman Gang Pei Sang Ki Rhee Yijun Ruan Jeongsun Seo Jinho Seo Rho
Hyun Seong HeeSup Shin Obaid Siddiqi Richard Simpson Jisnuson Svasti Axel Ullrich
Andrew Wang Sumiko Watanabe John Wong Zhicheng Xiao Ook Joon Yoo University of
Western Australia, Australia Institute of Molecular and Cellular Biosciences, University of
Tokyo, Japan Institute of Medical Science, University of Tokyo, Japan Institute of Medical
Science, University of Tokyo, Japan St Lukes Medical Center, Philippines Walter and Eliza
Hall Institute, Australia University of Malaya, Malaysia Shanghai Institute for Biological
Sciences, Institute of Biochemistry and Cell Biology, China College of Medical Sciences,
Soon Chun Hyang University, Korea Genome Institute of Singapore, ASTAR, Singapore
College of Medicine, Seoul National University, Korea Department of Agricultural
Biotechnology, Seoul National University, Korea College of Biological Sciences, Seoul
National University, Korea Korea Institute of Science and Technology, Korea National Centre
for Biological Sciences, India Ludwig Institute for Cancer Research, Australia Mahidol
University, Thailand MaxPlanckInstitut fr Biochemie, Germany Academia Sinica, Taiwan
Institute of Medical Science, University of Tokyo, Japan National University Health System,
Singapore Innovative Research, GSK, China Korea Advanced Institute of Science and
Technology, Korea
AIMBN RESEARCH
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Table of Contents
Cell biology
A TALL tale Divide and conquer Better feed at lower cost Nutrition makes the cell cycle go
round Confining cancer Following new instructions Stem cell shortcuts Stem cells on steroids
When the time is right Seeing itoI Cellcycle blockers Fitting the profile Lipids trapped within a
SNARE The acid advantage Tracking cellular hunger pangs Reciprocal connections Profiling
cell death perpetrators The missing link Pinpointing a missing link Maintaining stem cell
identity AIDing our understanding of cancer Identifying a cancerspreading culprit The
accomplice to viral entry Route of entry Dissecting cellular crisis management Frontline
healer
Thank you for not smoking Lung cancer link Extremophiles Cold complexity Mountains that
make the people Combining forces to combat cancer Filling the gaps of a genome map
Pinpointing inflammatory genomic changes Keeping track of changes Pinpointing genetic
susceptibility to Parkinsons disease Asian genomes point the way Different strokes, different
genes Casting wide yields aneurysm suspects Plant fungis jump on pathogenicity Sprouting
information Transcending ethnic differences Linking more suspects to bowel disease Getting
at the roots of cancer risk Diversity in the genome
Stopping the cancer spreading Binding and gagging tumors Tying up loose ends Putting
injured cells to sleep Compatible partners All mixed up Cellular stress protection Tracking
transcriptional traffic Unraveling the roles of multitasking enzymes Working with a silent
partner Spotlighting single DNA molecules Making the right connections Bacterial chaperonin
a trick of the tail
Immunology amp Therapeutics
Taking a shot at pandemic flu Last line of defense Curtailing cholera Slow and steady
Fighting the flu virus Flu fighter The good without the bad Poisoning the well of cancer
Collaborating with the enemy Dialing up diabetes Unmasking bacterial saboteurs Pathways
of presentation Unlikely allies against infection Infectionproofing by the gut When antibiotics
backfire Fate director Immune response linked to early arrival Building a better booster
Single protein seeks mature partner Protective markings
neuroscience amp Developmental Biology
Muscling in on receptor clusters A model of dementia Benefitting from mixed messages
Sniffing out the olfactory code Shaping blood vessel formation Accelerating synapse
formation Keeping genes in their place First instructions for male mice A green light for
growth
Genetics
Knockout resource for yeast biologists Looking out for number one Exploring the genetic
generation gap Evolution through , generations
Structural amp Molecular biology
Getting in the blood Making the cut Maintaining the silence Amplifying the silence
AIMBN RESEARCH Research Highlight Collection
INTRODUCTION AIMBN RESEARCH
Welcome to the AIMBN Research Collection
e at NPG Nature AsiaPacific in partnership with the AsiaPacific International Molecular
Biology Network AIMBN are delighted to present this collection of research highlights
published on the AIMBN Research website in . AIMBN Research covers some of the best
research in molecular biology and biotechnology from the AsiaPacific region, and the
everexpanding showcase of highquality research that can be found on the website is a
testament to the growing strength of life science research in this part of the world. The
website provides a remarkable overview of the efforts being made by the top scientists in the
region and draws attention to many of the key AsiaPacific institutions that are publishing
worldclass research in this field. NPG Nature AsiaPacific would like to take this opportunity to
thank the organizations that have supported the AIMBN Research project through financial
sponsorship of the journal website. The year saw the inclusion of four new sponsors,
including the projects new gold sponsor, the Life Science Network Asia LSNA supported by
the Japanese government. The research highlights presented in this collection are only a
snapshot of what is being published on the website every month. To read the very latest
highlights of top research published by AsiaPacific scientists in the best international
journals, be sure to visit the AIMBN Research website www.natureasia.com/AIMBN. We
encourage you to alert your colleagues to the website and register for email alerts of each
new update. With the continued support of our readers and members, AIMBN Research will
become a hub that can foster a thriving network of molecular biology research in the
AsiaPacific region.
W
David Swinbanks, PhD
Managing Director Asia and Australasia amp Medical and Scientific Communications Nature
Publishing Group
www.natureasia.com/AIMBN
AIMBN RESEARCH INTRODUCTION
have great pride in welcoming you to this, the latest collection of research highlights from
AIMBN Research, the webbased journal of the AsiaPacific International Molecular Biology
Network AIMBN. Since its founding in , the mission of the AIMBN has been to raise the
international profile of molecular biology and related disciplines emerging in the AsiaPacific
region and to aid its development. The AIMBN is active in a variety of areas, including the
provision of training courses and practical workshops as well as advancing its fellowship
program throughout Asia by sponsoring annual conferences. Modern molecular, cell and
computational biology along with bioinformatics and other related disciplines have spawned
an incredible wealth of new biotechnologies that offer great promise for the development of
the agriculture and health sectors, all of which are of particular interest to many AsiaPacific
countries. These activities can be made even more effective by the development of a forum
for crossfertilization of ideas and assistance in publishing highquality research in highimpact
journals. The AIMBN has an important role to play in assisting in this process and the AIMBN
Research website is a valuable tool for promoting the very best of published research in
molecular biology from the AsiaPacific region in a timely and accessible manner. To date,
close to original research papers originally published in top international journals such as
Nature, Cell, Science and PNAS have been highlighted on the website. AIMBN Research is
only made possible by the financial support of sponsors from around the AsiaPacific region,
all of whom are acknowledged on the website and in the pages of this magazine. In , we
welcomed four new supporting organizations including a new gold sponsor the Life Science
Network Asia LSNA. These join the existing sponsors who find AIMBN Research an effective
means of introducing their research activities to the global scientific community. With the
support of our sponsors and the commitment of our members, I see a great future for AIMBN
Research and commend it to the readership.
I
Jeongbin Yim, PhD
Professor, Seoul National University President, AIMBN
RESEARCH HIGHLIGHT COLLECTION
Gold sponsor
Sponsor Information
Life Science Network Asia Institute of Medical Science, The University of Tokyo
Shirokanedai Minatokuku, Tokyo , Japan
Silver sponsors
AsiaPacific International Molecular Biology Network AIMBN BioMax Institute Seoul National
University Seoul , Korea www.aimbn.org Academia Sinica Academia Road Section ,
Nankang Taipei , Taiwan www.sinica.edu.tw/maine.shtml Electronic International Molecular
Biology Laboratory eIMBL eIMBL Secretariat BioMAX Institute Seoul National University
Seoul , Korea www.eimbl.org BioMax Institute International Vaccine Institute IVI Seoul
National University Research Park San , Bongcheon dong Gwanakgu, Seoul , Korea
www.biomax.org National Taiwan University School of Medicine NTU No. , Section , Renai
Rd Taipei , Taiwan www.med.ntu.edu.tw Universiti Sains Malaysia USM Persiaran Seksyen /
Bandar Putra Bertam Kepala Batas Pulau Pinang, Malaysia www.amdi.usm.edu.my Korea
National Institute of Health KNIH , TongilLo EunpyungGu Seoul , Korea
www.cdc.go.kr/eng/english/knih.htm Korea Research Institute of Bioscience and
Biotechnology KRIBB Gwahangno, Yuseonggu Daejeon , Korea www.kribb.re.kr/eng
Institute of Biochemistry and Cell Biology SIBCB Chinese Academy of Sciences Yue Yang
Road Shanghai , China www.sibcb.ac.cn/eindex
Bronze sponsor
National Center for Genetic Engineering and Biotechnology BIOTEC Thailand Science Park
Phahonyothin Road Klong , Klong Luang Pathumthani , Thailand
www.biotec.or.th/biotechnologyen
ISTOCKPHOTO/SeBASTIAN KAulITzKI
Cell Biology
CELL BIOLOGY AIMBN RESEARCH Published in Science
A TAll tale
Cell fate mapping and genetic analysis reveals how a T cell cancercausing gene gives rise to
leukemia
ISTOCKPHOTO/eRAXION
T cell acute lymphoblastic leukemia TALL is marked by hyperproliferation of T cells in the
blood system and if left untreated results in rapid death. The hyperproliferating T cells, which
Published in Proceedings of the National Academy of Sciences USA
Divide and conquer
Insights provided by a gene expression signature signal the effects of a gene mutation on
breast cancer prognosis
Understanding how breast cancers differ from each other at the molecular level can allow for
targeted therapy against these molecules and lead to greater success at fighting the cancer.
Now, an international team of researchers has identified a gene expression profile in breast
cancer samples from human patients that can flag whether the tumors contain a mutation in
the cell signaling gene PIKCA. In cancer patients whose tumor expressed the estrogen
receptor protein, the gene signature also could identify patients who were likely to have a
better outcome. This association of the mutant PIKCA gene expression profile with good
outcome was surprising, according to lead author Sherene Loi from the Peter MacCallum
Cancer Centre, Australia, because these mutations
Loi, S. et al. PIKCA mutations associated with gene signature of low mTORC signaling and
better outcomes in estrogen receptorpositive breast cancer. Proceedings of the National
Academy of Sciences USA , .
are thought to induce tumor formation. However, the researchers found that the mutant gene
signature actually demonstrated very low activation of downstream signaling. This means
that drugs that are being developed to block this signaling cascade are unlikely to work in
patients with the mutant PIKCA gene expression profile. While the mechanisms that mediate
the effects of the mutations on tumor outcome remain to be determined, parsing out the
differences in signaling between breast cancer subtypes could pave the way for therapy
tailored for each individual breast cancer patient in the future.
overrun normal T cells, arise from a single leukemiainitiating cell LIC that commonly harbors
an activating mutation in a cancercausing gene called an oncogene. Now, Matthew
McCormack from Royal Melbourne Hospital, Australia, and colleagues from the Walter and
Eliza Hall Institute of Medical Research and other institutions in Australia and the UK have
provided mechanistic insights on how the activation of the oncogene Lmo an important
transcription factor in blood cell development leads to TALL. After genetically labeling cells in
a mouse model of TALL, the researchers found that the LIC appeared in the thymus, the
source of T cells, months before the onset of disease. This indicates that Lmo activation
alone does not cause leukemia per se. Rather, they found that Lmo inhibits T cell maturation
while also initiating a genetic program that induces a stem celllike behavior. Hence, the LIC
undergoes continuous selfrenewal, which allows secondary mutations to accumulate that in
turn cause TALL. These new insights may lead to therapeutics that target the LIC rather than
just the hyperproliferating leukemia cells, thus preventing the relapse that often occurs in the
clinic.
McCormack, M. P. et al. The Lmo oncogene initiates leukemia in mice by inducing thymocyte
selfrenewal. Science , .
www.natureasia.com/AIMBN
AIMBN RESEARCH CELL BIOLOGY Published in FEMS Microbiology Letters
Better feed at lower cost
A yeast supplement that exploits a cellsurface enzyme could provide a more costeffective
method for producing animal feed
Genetically engineered yeast cells that release nutrients from plantbased foods could be
used to produce cheap and highly nutritious animal feed, researchers at the National Center
for Genetic Engineering and Biotechnology have shown. Inorganic phosphorous in
plantbased feedstuff is stored largely in the form of phytic acid. Most animals cannot absorb
this, so feed is normally treated with phytase, an enzyme that releases the phosphorous.
However, using phytase is costly and timeconsuming, as it involves collecting and
concentrating the enzyme from the microorganisms that produce it. Piyanun Harnpicharnchai
and her colleagues engineered Pichia pastoris yeast cells that express phytase and display it
on their surface. The researchers found that their cellsurface enzyme was stable at high
temperatures and under acidic and alkaline conditions. It also released phosphorous from
feedstuff as efficiently as commercially available phytase. When added to feed, the modified
yeast provided biotin, niacin and proteins, increasing its nutritional value. The researchers
are currently developing yeast cells that codisplay phytase with other enzymes that are often
added to animal feed. Yeast engineered in this way could be used as an animal feed
supplement. As well as being cheaper to produce, feed containing such a supplement would
require fewer ingredients but would also be more nutritious, Harnpicharnchai notes.
RESEARCH HIGHLIGHT COLLECTION
Harnpicharnchai, P., Sornlake, W., Tang, K., Eurwilaichitr, L. amp Tanapongpipat, S.
Cellsurface phytase on Pichia pastoris cell wall offers great potential as a feed supplement.
FEMS Microbiology Letters , .
Published in Proceedings of the National Academy of Sciences USA
nutrition makes the cell cycle go round
A landscape model shows how cells remain stable under changing chemical conditions
Jin Wang and colleagues from the Chinese Academy of Sciences and the State University of
New York have developed an energybased, threedimensional landscape model of the cycle
of growth, development and reproduction in budding yeast cells. Their work helps explain
how networks of chemical reactions give rise to such a stable, functioning system. The model
revealed that the progress of yeast around the cell cycle is driven by increasing mass and
energy through nutrition. The researchers found that changing the rates and numbers of
chemical interactions does not necessarily weaken the stability of the cycle. The cell cycle is
generally thought to have four phases G or first gap where the cell grows, S or
Wang, J., Li, C. amp Wang, E. Potential and flux landscapes quantify the stability and
robustness of budding yeast cell cycle network. Proceedings of the National Academy of
Sciences USA , .
synthesis when it duplicates its chromosomes, G, another growth phase to prepare for
division, and M or mitosis when it divides. The landscape picture, predicted from the
modeling results, develops as the mass of an individual cell increases. The cell moves from
one phase of the cell cycle to the next like a ball rolling between holes or depressions of
lower energy separated by barriers of higher energy. Its energy pathway, as it proceeds
around the cell cycle, eventually traces a ring. The same methods can be applied to other
complicated networks, the researchers say.
ISTOCKPHOTO/KNORRe
CELL BIOLOGY AIMBN RESEARCH Published in Proceedings of the National Academy of
Sciences USA
Confining cancer
Treatments that stop lung cancer cells from invading other tissues could stem from the
recent identification of a critical signaling pathway
ISTOCKPHOTO/WIllSIe
Researchers from the Chinese Academy of Sciences, along with colleagues from other
institutes in China and the US, have deciphered
Published in The Journal of Clinical Investigation
Following new instructions
Overexpression of a cellular protein helps clear the way for lung cancer by switching off
genes that restrain cell growth
Enzymes such as DNA methyltransferase I DNMT routinely downregulate expression of
genes by masking specific stretches of DNA with chemical modifications, but some cancers
exploit this activity to block production of factors that suppress tumor growth. A new study
from a team led by LiJung Juan at Taiwans Academia Sinica has revealed a cofactor that
facilitates this process in lung cancer. Although previous data linking the hNaap protein to
tumorigenesis have been somewhat ambiguous, Juan and coworkers demonstrate that
hNaap helps to recruit DNMT to specific sites in the genome and facilitates the silencing of
cancerrelated genes. Ecadherin, a known tumor suppressor, is among the targets inactivated
by hNaap and DNMT, and the researchers
Lee, C.F. et al. hNaap contributes to tumorigenesis by facilitating DNMTmediated tumor
suppressor gene silencing. The Journal of Clinical Investigation , .
found that the interaction of these two factors significantly promoted transformation and cell
proliferation in cultured lung cancer cells. Clinical data showing elevated hNaap expression
in more than half of all lung cancer specimens examined further supported these findings.
This overexpression was generally associated with downregulation of Ecadherin and other
tumor suppressor genes, as well as poor overall patient prognosis. However, the researchers
also note that some previous studies have found that hNaap may inhibit growth in breast
cancers, and conclude that this proteins function may vary considerably depending on the
tumor context.
Gao, Y. et al. LKB inhibits lung cancer progression through lysyl oxidase and extracellular
matrix remodeling. Proceedings of the National Academy of Sciences USA , .
the molecular mechanism by which a tumor suppressor gene called LKB inhibits lung cancer
progression. Mutations in the LKB gene are observed in up to of human lung
adenocarcinomas and contribute significantly to cancer progression, but little was known
about the underlying mechanisms. Hongbin Ji, in collaboration with Gaoxiang Ge and
colleagues, found that the enzyme called lysyl oxidase LOX is inhibited by the LKB protein
through the signaling pathway known as mTORHIF, which mediates metastasis of lung
tumors lacking the LKB gene. They also found that the elevated LOX expression in
LKBdeficient lung tumors ultimately resulted in excessive deposition of collagen, which in
turn activated signaling by integrin and promoted cancer cell invasion. Then, in mice with
Lkbdeficient lung tumors, they showed that treatment with a pharmacological inhibitor of LOX
dramatically alleviated malignancy progression. The researchers work links the
microenvironment of cells to enhanced lung cancer progression and metastasis induced by
the loss of LKB. They also identified LOX as a potential therapeutic target for metastatic
cancer treatment, and observed that LOX may serve as an important biomarker for lung
cancer prognosis.
www.natureasia.com/AIMBN
AIMBN RESEARCH CELL BIOLOGY Published in Nature
Stem cell shortcuts
Refinement of a powerful cellular reprogramming technique could represent important
progress in the development of viable alternatives to embryonic stem cells
PlOS BIOlOgy VOl. //, e
Embryonic stem cells ESCs retain the capacity to develop into any cell type from the body, a
property known as pluripotency but their tantalizing clinical potential is countered by the strict
regulatory environment surrounding work in this area. Adult cells that have been
reprogrammed into a pluripotent state by the activation of selected genes could offer a
practical alternative, but these induced pluripotent stem cells iPSCs can vary widely in their
resemblance to true ESCs. In an effort to identify factors that could boost reprogramming,
Genome Institute of Singapore researcher Bing Lim and colleagues looked for genes whose
activity is modulated by known pluripotency regulators Nanog and Tcf, identifying
transcription factor Tbx as a promising candidate. Lim and colleagues observed faster and
more efficient iPSC formation when the Tbx gene was introduced into mouse fibroblasts
alongside a combination of three other reprogramming genes. Importantly, these cells
expressed other key pluripotency genes at levels equivalent to ESCs, and proved
significantly more effective than standard cell preparations for the experimental generation of
purely iPSCderived animals. The authors note that cellular reprogramming is hypothesized to
occur via multiple developmental routes, yielding cells with varying degrees of pluripotency,
and conclude that Tbx expression may help steer iPSC production down a more efficient
path.
RESEARCH HIGHLIGHT COLLECTION
Han, J. et al. Tbx improves the germline competency of induced pluripotent stem cells.
Nature , .
Published in Nature
Stem cells on steroids
estrogen and progesterone increase mammary stem cell number and enhance their potential
for outgrowth in breast tissue
The risk for breast cancer increases after prolonged exposure to the ovarian steroid
hormones estrogen and progesterone, such as during pregnancy. Now, researchers in
Australia and Japan have a plausible explanation exposure to these hormones enhances the
growth capacity of mammary stem cells MaSCs potential seeds of breast cancer. When the
researchers transplanted MaSCs from mice lacking ovaries into breast tissue of normal mice,
they found that the cells could not populate the tissue as well as MaSCs from mice with
ovaries. The data indicated that MaSCs from the mice lacking ovaries had trouble completing
the cell cycle normally. After administering estrogen and progesterone to mice, the
researchers noted that MaSC number increased. MaSCs also increased during pregnancy,
when estrogen and progesterone levels are high. Drugs that blocked these hormones
reduced MaSC counts, and mice lacking the genes involved in the synthesis of these
hormones also had fewer MaSCs than normal mice. MaSCs do not express the receptors for
these hormones, so the researchers realized that mature cells in the breast responded to the
hormones, and these mature cells then secreted a protein called RANKL onto the MaSCs,
which in turn affected their growth potential. These findings could explain why ovary removal
or antiestrogens reduce breast cancer risk, the team suggests.
AsselinLabat, M.L. et al. Control of mammary stem cell function by steroid hormone
signalling. Nature , .
CELL BIOLOGY AIMBN RESEARCH Published in Proceedings of the National Academy of
Sciences USA
When the time is right
One protein acts as a gatekeeper that regulates the activation of key genes involved in blood
cell maturation
ISTOCKPHOTO/AlXPIN
The development of red blood cells, also known as erythrocytes, depends on the properly
timed activation of a subset of genes involved in
Published in Blood
Seeing itoI
Different classes of blood cells use a common mechanism to undergo changes associated
with maturation
Blood cells display diverse antigen molecules on their surface, including chains of
Nacetyllactosamine carbohydrates. These can manifest in a linear i form or branched I form
the i variant is most prevalent during early development in human red blood cells, but by the
age of months these cells predominantly display the I antigen. Previous research from
LungChih Yu of the National Taiwan University has highlighted a key role for the
transcriptional regulator C/EBP in regulating genes that facilitate this itoI transition in red
blood cells. However, C/EBP also contributes to development of white blood cells known as
granulocytes, and Yu and coworkers have now determined that these cells employ a similar
mechanism for I antigen production.
Twu, Y.C. et al. Phosphorylation status of transcription factor C/EBP determines cell surface
polyLacNAc branching I antigen formation in erythropoiesis and granulopoiesis. Blood , .
C/EBP activity is modulated by the addition of phosphate molecules to specific amino acids,
and the researchers identified a single phosphorylation site at serine that appears to act as a
direct switch for triggering I antigen expression. Working with cells that can differentiate into
either red blood cells or granulocytes, they demonstrated that I production is directly
correlated with removal of phosphorylation from this C/EBP residue in blood cells from both
lineages, suggesting that this may represent a common pathway for driving this antigenic
transition in diverse cell types.
differentiation. In undifferentiated erythroid precursors, many of these genes are maintained
in an inactive state by the inhibitory Bach/Maf protein complex, which associates with a
regulatory DNA sequence known as the Maf recognition element MARE. Activation in turn
depends on the substitution of Bach with p, although it has remained unclear how cells
maintain appropriate control over this latter protein. However, new research from a team led
by CheKun James Shen of the Academia Sinica in Taiwan has provided insights into the
regulatory mechanisms that ensure that p is only present at the right time and place. Shen
and coworkers determined that p is normally marked for destruction through chemical
modifications introduced by the JNK enzyme, but can be stabilized via the inactivation of JNK
in the earliest stages of erythrocyte differentiation. The resulting increase in p levels initiates
a chain of events that lead to Bach release and degradation, so that MARE elements are
instead bound by geneactivating p/Maf complexes. Based on these findings, the authors
conclude that JNKmediated regulation of p likely represents a vital, toplevel checkpoint
governing the onset of blood cell maturation.
Lee, T.L. et al. JNKmediated turnover and stabilization of the transcription factor p/NFE
during differentiation of murine erythroleukemia cells. Proceedings of the National Academy
of Sciences USA , .
www.natureasia.com/AIMBN
AIMBN RESEARCH CELL BIOLOGY Published in Science
Cellcycle blockers
The mechanism used by two pathogenic bacterial species to block the division of their host
cells is no longer a mystery
The bacteria Burkholderia pseudomallei and Escherichia coli cause the human condition
melioidosis and diarrheal disease, respectively. By injecting virulence factors called effectors,
they curtail the division of host cells, which then fuse allowing the bacteria to spread from cell
to cell. Now, a team led by Feng Shao of the Chinese National Institute of Biological
Sciences in Beijing has revealed the mechanism by which these effectors block the cell
cycle. Escherichia coli produces an effector called cycle inhibiting factor Cif , whereas
B.pseudomallei produces the related protein CHBP. Both Cif and CHBP can block the
normal cycle of cell division, when injected into host cells. Shao and his collaborators
showed that Cif and CHBP directly interfere with the ubiquitinproteasome system, which
normally drives the cell cycle by degrading key regulatory proteins at the appropriate times.
When no longer needed, these cellcycle regulators are tagged with a small protein called
ubiquitin. This directs them to a structure called the proteasome where they are broken down
for recycling. The researchers revealed that CHBP and Cif interfere with ubiquitination by
chemically altering and thereby inactivating ubiquitin and/or the ubiquitinlike protein NEDD.
Because ubiquitination is involved in many cellular processes, they suggest that these
effectors probably play a range of roles in bacterial pathogenesis.
RESEARCH HIGHLIGHT COLLECTION
Cui, J. et al. Glutamine deamidation and dysfunction of ubiquitin/NEDD induced by a
bacterial effector family. Science , .
Published in Proceedings of the National Academy of Sciences USA
Fitting the profile
Variations in surface proteins may help researchers to reliably isolate and track cells with
potential value for studying blood cell development
Characterizing the differentiation of hematopoietic stem cells HSCs into mature blood cells in
vivo poses a serious challenge, and researchers have begun to seek cell preparations with
HSClike characteristics that might prove more practical for experimental use. Recent work
from a team led by Donald Metcalf at Australias Walter and Eliza Hall Institute of Medical
Research demonstrated how mouse bone marrow cells could be chemically induced to yield
two subtypes of socalled blast colonyforming cells. These multicentric and dispersed blast
cells differ in their capacity for differentiation into mature blood cells, but both could represent
useful HSC alternatives for certain applications. Metcalf and colleagues have since
investigated the composition of these two cell preparations in greater detail. They found they
could enrich either type of blast cell from initial cultures with reasonable efficiency based on
differential expression of cellsurface proteins, although they noted considerably more
heterogeneity than expected in these preparations. The researchers observed clear
differences in the marker surface proteins displayed by multicentric and dispersed colonies,
as well as between the various blood cell types these two colonies yield. They conclude that
these findings should provide useful guidelines for more effectively identifying and observing
maturation of these two blast cell types in future work.
Metcalf, D. et al. Murine hematopoietic blast colonyforming cells and their progeny have
distinctive membrane marker profiles. Proceedings of the National Academy of Sciences
USA , .
ISTOCKPHOTO/JARROD
CELL BIOLOGY AIMBN RESEARCH Published in Molecular Cell
lipids trapped within a SnArE
An unusual regulatory mechanism provides tight control over intracellular transport of
molecules
ISTOCKPHOTO/ eRAXION
Within every eukaryotic cell is a constant flow of molecular traffic, with various cargos being
shipped from one place to another in membranebased bubbles known as vesicles.
Published in Proceedings of the National Academy of Sciences USA
The acid advantage
An acidsensing receptor protein on the surface of tumor cells enhances their ability to survive
and grow
Cancerous cells often reside in an acidic environment which would kill normal cells. Now, a
team of researchers in Japan describe how tumor cell expression of a protein that signals in
response to acid can confer a selective advantage to cancer cells. The researchers
expressed the protein, Tcell deathassociated gene TDAG, in lung cancer cells that are
normally free of the protein, and transplanted them into mice. These TDAGexpressing cells
formed more and larger tumors than normal cells lacking TDAG. Mutating the portions of
TDAG that allow it to sense acid reduced the ability of the protein to drive tumor formation in
the animals. In tissue culture experiments, the researchers found that lung cancer cells
expressing TDAG survived
Ihara, Y. et al. The G proteincoupled receptor Tcell deathassociated gene TDAG facilitates
tumor development by serving as an extracellular pH sensor. Proceedings of the National
Academy of Sciences USA , .
better and proliferated faster in acidic conditions than did cells lacking TDAG. They also
observed that reducing expression of TDAG in lung cancer cells, which normally expressed
the protein, reduced cell survival in acidic conditions and reduced tumor formation in animals.
TDAG seemed to activate signaling molecules inside the cancer cell, including various
kinase enzymes that add phosphate groups to other proteins. Blocking these kinases
decreased the ability of TDAG to drive proliferation in tissue culture. The findings suggest
that targeting TDAG signaling could be a therapeutic approach to fight cancer.
Each is addressed to a particular destination via membraneanchored
Nethylmaleimidesensitive factor attachment protein receptors SNAREs, which allow vesicles
to recognize the membranes of target organelles. Most SNAREs are permanently
membranebound, but the essential vesicletargeting protein Ykt appears to exist in an inactive
soluble form that can be induced to undergo rearrangements that enable membrane
insertion. A team led by Mingjie Zhang of the Hong Kong University of Science and
Technology has now provided direct experimental confirmation for this atypical activation
model. Ykt is typically modified with a farnesyl lipid group, and Zhang and coworkers
determined that this farnesyl group preferentially sequesters itself within a pocket formed by
various protein domains. As a result, Ykt is stably maintained in a compact soluble
conformation, where it is incapable of binding other SNAREs or interacting with membranes.
The authors hypothesize that subsequent addition of a palmitoyl lipid group shifts Ykt into an
open arrangement that leaves the farnesyl group exposed and capable of membrane
insertion. Importantly, this palmitoylation is reversible, thus providing cells with a useful
means to regulate Ykt activity.
Wen, W. et al. Lipidinduced conformation switch controls fusion activity of longin domain
SNARE Ykt. Molecular Cell , .
www.natureasia.com/AIMBN
AIMBN RESEARCH CELL BIOLOGY Published in Nature Structural and Molecular Biology
Tracking cellular hunger pangs
Animal cells have retained components of an essential bacterial signaling mechanism for
coping with starvation
When external nutrient supplies run dry, bacteria and plant cells produce a warning signal
that halts cell growth while ramping up the activity of cellular processes that might help to
rectify the shortage. Levels of this alarmone, guanosine ,diphosphate ppGpp, are governed
by two enzymes RelA, which synthesizes ppGpp, and SpoT, which breaks it down. Until
recently, neither enzyme had been observed in animal cells, but new work from a team led
by Jongkyeong Chung at Seoul National University in Korea and Young Ho Jeon at the
Korea Basic Science Institute has now identified homologs of SpoT in diverse animal
species. Both the human and fruit fly homologs, which the researchers termed metazoan
SpoT homolog Mesh, showed remarkable structural similarity to their bacterial counterparts
and proved equally capable of the specific processing of ppGpp molecules. Escherichia coli
bacteria lacking the gene encoding SpoT normally accumulate ppGpp under nutrientpoor
conditions and subsequently undergo growth arrest, but this condition could be effectively
reversed by inducing these cells to express human or fly Mesh. As this enzyme apparently
plays an equivalent role in flies, regulating both cell growth and responses to nutrient
deprivation, these findings shed light on a highly important but previously uncharacterized
environmentalsensing pathway in animal cells.
RESEARCH HIGHLIGHT COLLECTION
Sun, D. et al. A metazoan ortholog of SpoT hydrolyzes ppGpp and functions in starvation
responses. Nature Structural and Molecular Biology , .
Published in Neuron
reciprocal connections
Odor responses in the fruit fly brain are modulated by an exchange of excitatory signals
between two specific neuron populations
Researchers in China have found how neuronal populations in the antennal lobe of the fruit
fly brain communicate with each other to encode olfactory information. The flys response to
olfactory information is critical, particularly in the search for food. The findings have been
published in the journal Neuron. The researchers stimulated neurons in flies that expressed a
fluorescent protein in a population of excitatory interneurons in the antennal lobe of the brain.
They recorded the response in projection neurons that send olfactory information to higher
brain centers. Stimulating the excitatory interneurons activated the projection neurons, and
stimulating projection neurons activated the excitatory interneurons. These two neuronal
populations seemed to be connected to each other through direct gap junction coupling,
allowing for rapid communication between them. Certain odors triggered stronger responses
than others in the excitatory interneurons, the researchers observed. They also found that
switching an odor on or off in the flies environment could preferentially activate these
neurons. The specificity of these interneuron responses, and their reciprocal excitation of the
projection neurons, suggested to the researchers that these excitatory interneurons might
amplify the response of the olfactory neuronal circuit to low concentrations of odors in the
environment.
Huang, J., Zhang, W., Qiao, W., Hu, A. amp Wang, Z. Functional connectivity and selective
odor responses of excitatory local interneurons in Drosophila antennal lobe. Neuron , .
ISTOCKPHOTO/ARlINDO
CELL BIOLOGY AIMBN RESEARCH Published in Cell Death and Differentiation
Profiling cell death perpetrators
genetic deletion reveals the individual and overlapping roles of two key instigators of
programmed cell death in various cell types
Safeguarding against tumor formation and other diseases hinges on programmed cell death,
or apoptosis, for the removal of redundant and defective cells. Two important factors
Published in The EMBO Journal
The missing link
A commonly used anticancer therapeutic helps to preserve the activity of a protein that
causes tumor cells to commit suicide
Many cancer patients benefit from treatment with cellular signaling molecules known as
interferons IFNs, which eliminate tumor cells by triggering cellular selfdestruct mechanisms
via their influence on proteins such as deathassociated protein kinase DAPK. Until recently,
the molecular details of this response were poorly understood, but a team led by RueyHwa
Chen at Academia Sinica in Taiwan has revealed valuable details about how IFN helps
promote the activity of this cell death initiator. Cellular pathways are often switched off via a
process known as ubiquitination, which marks specific proteins for destruction by a complex
known as the proteasome. Accordingly, Chen and coworkers discovered that the KLHL
protein acts as an adapter that selectively
Lee, Y. R. et al. The Cullin substrate adaptor KLHL mediates DAPK ubiquitination to control
interferon responses. The EMBO Journal , .
facilitates DAPK degradation by tethering it to proteins that help direct it to the proteasome.
However, they observed that cells treated with IFN or exhibit dramatically altered localization
of KLHL, with much of this protein segregated within the nucleus as opposed to its typical
distribution throughout the cytoplasm. This nuclear segregation essentially eliminates the
bridge that links DAPK to the ubiquitination pathway, thereby extending the proteins lifespan
and promoting the onset of cell death. Chen and coworkers suggest that malfunctions in this
process could underlie emergence of interferon resistance in certain cancer patients.
in apoptosis induction are the proteins Bim and Bad. By genetically engineering mice to lack
one or both of these proteins, Andreas Strasser and his colleagues from the Walter and Eliza
Hall Institute of Medical Research in Australia have characterized how Bim and Bad work
together to trigger apoptosis in various cell types. The researchers found that loss of Bad
extended the life span of platelets, whereas loss of Bim reduced the production of these
cells, possibly because a Bimdependent, apoptosislike, process may be critical for platelet
shedding. In mice lacking both Bim and Bad, they recorded a normal number of platelets,
likely because the effects of these proteins on these cells counterbalance each other.
Strasser and colleagues also found that loss of Bim in thymocytes, and of Bad in their
support cells, helped nurture their sustained survival upon radiation treatment. Accordingly,
they observed an acceleration of radiationinduced lymphoma development when both factors
were lacking. Since Bim and Bad play interacting roles in apoptosis the team suggests that
pharmacologically activating both might assist with the treatment of certain types of
lymphomas.
Kelly, P. N. et al. Individual and overlapping roles of BHonly proteins Bim and Bad in
apoptosis of lymphocytes and platelets and in suppression of thymic lymphoma
development. Cell Death and Differentiation , .
NIeHS/NIH
www.natureasia.com/AIMBN
AIMBN RESEARCH CELL BIOLOGY Published in Proceedings of the National Academy of
Sciences USA
Pinpointing a missing link
The discovery of the protein Stk will help facilitate full use of embryonic stem cells in
regenerative medicine
A research team led by Ying Jin of the Chinese Academy of Sciences has identified a key
protein, Stk, involved in embryonic stem cell ESC differentiation. ESCs derived from
earlystage embryos renew themselves through cell division. Their capacity to differentiate
into a diverse range of specialized cells makes them attractive candidates for use in
regenerative medicine. However, factors controlling renewal and differentiation need to be
better understood before the full therapeutic potential of ESCs can be realized. The
researchers identified Stk as a target gene of Oct, the master regulator of gene expression
maintaining ESCs in an undifferentiated state. They showed that Stk cooperates with a
calciumbinding protein, Rcn, to activate a previously characterized Erk/MAPK signaling
pathway already known to be crucial for ESC differentiation. However, the exact mechanism
by which these proteins activate signaling remains to be established. Experiments with
mouse embryos revealed that signaling triggered by Stk induces ESC differentiation
specifically into extraembryonic endoderm. In mammals, cells from this lineage form yolk
sacs, which nourish the developing embryo, and also orchestrate patterning of later
developmental structures. The researchers concluded that Oct maintains ESCs in an
undifferentiated state by suppressing Stk expression, thereby blocking signals that would
otherwise lead to differentiation.
RESEARCH HIGHLIGHT COLLECTION
Li, L. et al. Stk links the pluripotency factor Oct to the Erk/MAPK pathway and controls
extraembryonic endoderm differentiation. Proceedings of the National Academy of Sciences
USA , .
Published in Nature
Maintaining stem cell identity
Identification of the genes that keep embryonic stem cells in an undifferentiated state is an
important step forward
Researchers from the ASTAR Genome Institute of Singapore have identified the genes that
make human embryonic stem cells ESCs remain in the pluripotent, undifferentiated state,
which enables them to generate the multiple cell types in the body. HuckHui Ng and his
colleagues performed a genomewide screen to pinpoint the genes that specify ESC identity
by regulating the selfrenewing and pluripotency properties of the cells. They used genetic
engineering to fuse green fluorescent protein to the regulatory region of the POUF gene,
which is critical for ESC selfrenewal. This enabled them to identify the genes that interact
with and control POUF expression. They established that one of the genes identified, PRDM,
directly controls the expression of the OCT gene, which is a key regulator of ESC
pluripotency. Furthermore, inserting PRDM into cultured cells called fibroblasts pushed them
towards a pluripotent state by activating these genes, enabling more efficient reprogramming
of the cells. Conversely, reducing PRDM levels led to a reduction in ESCassociated genes in
three different stem cell lines, causing them to express celltype specific genes and to
undergo morphological changes characteristic of differentiation. We are currently studying
the novel regulators identified in the screen, says Ng. It is likely that many will play
unexpected roles in human embryonic stem cells.
Chia, N.Y. et al. A genomewide RNAi screen reveals determinants of human embryonic stem
cell identity. Nature , .
ISTOCKPHOTO/luISMMOlINA
CELL BIOLOGY AIMBN RESEARCH Published in Leukemia
AIDing our understanding of cancer
ISTOCKPHOTO/ DAVIDBgRAy
A different approach in modeling AIDinduced immunecell cancers reveals new insights into
their development
Mutations introduced in the DNA of immune cells by the enzyme called activationinduced
cytidine deaminase
Published in Cell Stem Cell
Identifying a cancerspreading culprit
The protein CD defines a population of cancer stem cells that can spread human colorectal
cancer to other organs
Cancer researchers believe that tumors harbor a relatively small number of longlived cells,
dubbed cancer stem cells CSCs, which are the mutant cells that initially gave rise to the
tumor. CSCs have been identified in human tumors and shown to initiate tumor development
when injected into mice. Benjamin Wong and his colleagues from the University of Hong
Kong have now identified the cell surface protein CD as a marker of a subpopulation of
CSCs that also give rise to secondary tumors metastases. Using cells collected from human
colorectal cancers, the researchers found that a population of CSCs expressing CD within
these samples can initiate cancer metastasis when injected into mice. They also observed
Pang, R. et al. A subpopulation of CD cancer stem cells with metastatic capacity in human
colorectal cancer. Cell Stem Cell , .
that these cells displayed enhanced tissue invasiveness and resistance to chemotherapeutic
agents. Wong and colleagues noted that at the beginning of a study of colorectal cancer
patients without metastasis but with CSCs not expressing CD of individuals did not develop
secondary tumors. However, of colorectal patients . with CDpositive cells eventually
developed secondary tumors. These results suggest that CDexpressing CSCs may be the
source of metastases in colorectal cancer and may also have prognostic value in the clinic
for this disease.
AID lead to the diversification of these cells. However, misregulation of AID can
inappropriately introduce mutations in the genes that regulate cancer, resulting in the
hyperproliferation of B cells and consequently tumors of the lymph socalled Bcell
lymphomas. Surprisingly, modeling this disease by genetic overexpression of AID in mice
had resulted only in Tcell lymphomas. Toshio Kitamura from the University of Tokyo and his
colleagues have now found that bone marrow cells transduced with AID and injected into
normal mice can cause T and Bcell lymphomas and Bcell leukemia. None of the recipient
mice, however, developed myeloid leukemias even when the team injected mice with purified
precursors of these blood cells that were transduced with AID. The team speculates that AID
induces leukemia/lymphoma in one subset of immune cells but not another because myeloid
cells have a more efficient DNArepair process than T or B cells. Kitamura and colleagues
also identified mutations in several key genes regulating Tcell and Bcell proliferation and
differentiation in the mice that developed cancer, thus offering a possible molecular
mechanism by which AID can induce such cancers in humans.
Komeno, Y. et al. AIDinduced Tlymphoma or Bleukemia/lymphoma in a mouse BMT model.
Leukemia , .
www.natureasia.com/AIMBN
AIMBN RESEARCH CELL BIOLOGY Published in Proceedings of the National Academy of
Sciences USA
The accomplice to viral entry
Researchers identify the cell surface receptor that effectively opens the door to the nervous
system for herpes virus infection
The molecular mechanism by which varicella zoster and related viruses gain entry into host
cells has been revealed by researchers in Japan. Varicella zoster virus VZV is a herpes virus
that targets primary sensory neurons, leading to chicken pox in children and shingles in
immunocompromised and elderly adults. During infection, virus envelope glycoproteins bind
to receptors on the host cell surface, causing the envelope to fuse with the cell membrane
and enabling the virus to gain entry into its host. The cell surface receptor which mediates
this process was, however, unknown. Tadahiro Suenaga of Osaka University and colleagues
in Japan have identified the host receptor as myelinassociated glycoprotein MAG, a
cellsurface protein expressed predominantly by glial cells in the nervous system, which is
known to be important for axonal outgrowth during neural development. The researchers
transfected a human kidney cell line with MAG and then cocultured them with cells
transfected with VZV glycoproteins B, E, H or L. In all but the cocultures containing gE, they
observed many fused cells see image. They also found that human oligodendrocytes
transfected with MAG were susceptible to VZV infection. These findings demonstrate that
cell cell fusion is mediated by an interaction between MAG and VZV glycoproteins B, H and
L, but not glycoprotein E.
Suenaga, T., Satoh, T., Somboonthum, P., Kawaguchi, Y. amp Mori, Y. Myelinassociated
glycoprotein mediates membrane fusion and entry of neurotropic herpesviruses. Proceedings
of the National Academy of Sciences USA , .
Published in Nature
route of entry
The herpes virus enters host cells by binding to a myosin protein found on the cell surface
The point of entry of the herpes virus to human host cells has been identified by researchers
in Japan and the US. The herpes virus glycoprotein B gB binds to a cell surface protein
called nonmuscle myosin heavy chain IIA NMHCIIA, which allows it to invade host cells. The
researchers focused on NMHCIIA by isolating and sequencing host cell surface proteins that
interacted with herpes virus expressing gB. They found that human leukemia cells that were
relatively resistant to herpes virus infection became highly susceptible to viral infection when
they overexpressed NMHCIIA. Kidney epithelial cells that are usually susceptible to herpes
infection became resistant when the researchers reduced their expression of NMHCIIA.
Arii, J. et al. Nonmuscle myosin IIA is a functional entry receptor for herpes simplex virus.
Nature , .
Since a drug called ML that blocks the ability of NMHCIIA to reach the cell surface could
prevent herpes virus infection in kidney cells, NMHCIIA could represent a new target for drug
development against herpes virus infections. Infection with herpes virus can cause death in
mice. The researchers found that ML could enhance the survival of mice exposed to the
herpes virus. The teams discovery could assist development of drugs against human herpes
virus infection, which can cause blistering of the skin, mouth and genitalia, and, in some
cases, damage to nerves.
RESEARCH HIGHLIGHT COLLECTION
PNAS
CELL BIOLOGY AIMBN RESEARCH Published in Molecular Cell
Dissecting cellular crisis management
ISTOCKPHOTO/ ISTACKPHOTONS
Cells rely on a complex, multistep signal transduction pathway to coordinate their response
to DNA damage
Serious DNA damage triggers cellular survival responses mediated by transcription factor
NFB, which some cancer cells exploit to evade destruction
Published in Developmental Cell
Frontline healer
Repair of physical damage to body tissues is coordinated by one of the protein that helps
epithelial cells stay in layers
Many tissues in the body are composed of sheets of tightly connected epithelial cells. When
these tissues suffer damage, epithelial cells respond by migrating towards wounds in order to
initiate healing. For this process to succeed, epithelial cells need a good sense of direction,
which is established by socalled polarity complexes such as ParaPKC and ParaPKC.
Zhengjun Chen and colleagues at Chinas Shanghai Institutes for Biological Sciences have
now revealed that this orientation depends on the participation of occludin, one of the
proteins that helps epithelial sheets maintain their cohesion. Working with kidney epithelial
cells, the researchers showed that occludin rapidly localizes to the leading edge of epithelial
cells near the wound essentially the front
Du, D. et al. The tight junction protein, occludin, regulates the directional migration of
epithelial cells. Developmental Cell , .
line of the healing process. Occludin subsequently recruits ParaPKC, and thereby
establishes directionality for cell migration on the other hand, artificially induced
downregulation of occludin prevented the cells from undergoing cytoskeletal rearrangements
that are an essential prelude to migration. Likewise, Chens team also demonstrated that
occludin is needed to localize and activate PIK, an important cellular signaling factor, at the
leading edge, where it triggers formation of cellular projections that help pull epithelial cells
into motion. Depletion of occludin sabotages this process, further highlighting the apparently
critical role of this protein in wound healing.
by radiation or chemotherapy. The ATM protein coordinates a parallel response to these
toxic stimuli, and although there is evidence for an intersection between these two pathways,
the details remain murky. ZhaoHui Wu from the University of Tennessee Health Science
Center and colleagues including Ee Tsin Wong and Vinay Tergaonka of the ASTAR Institute
of Molecular and Cell Biology have filled in some of those blanks. They identified a key role
for the ELKS protein, which gets modified via the addition of chains of ubiquitin molecules.
This modification enables ELKS interaction with downstream elements of the NFB activation
pathway. Ubiquitination of ELKS is driven in response to DNA damage by the cooperative
action of ATM and a second protein, NEMO. Interestingly, NEMO also participates in a late
stage of NFB activation, indicating a key role for this factor at both ends of this particular
pathway. Numerous other stimuli can activate NFB, including cellular signaling factors like
cytokine TNF. However, Wu and colleagues found evidence that the interaction between
NEMOATM and ELKS plays a minimal role in the TNF response, suggesting that the
mechanism they uncovered represents a specific response to DNA damage.
Wu, Z.H. et al. ATM and NEMOdependent ELKS ubiquitination coordinates TAKmediated
IKK activation in response to genotoxic stress. Molecular Cell , .
www.natureasia.com/AIMBN
ISTOCKPHOTO/HeNRIK JONSSON
Genetics
GENETICS AIMBN RESEARCH Published in Nature Biotechnology
Knockout resource for yeast biologists
A genomewide deletion collection for fission yeast provides an invaluable new tool for
biotechnology and biomedical research
ISTOCKPHOTO/MKuCOVA
Scientists led by KwangLae Hoe of the Korea Research Institute of Bioscience and
Biotechnology have ascertained which genes are dispensable
Published in Proceedings of the National Academy of Sciences USA
looking out for number one
A mathematical analysis suggests that parasitic genetic elements need not perish from their
singular selfishness
Most genes contribute to the survival of the organism within whose genome they reside, but
some are less beneficial. For example, homing endonuclease genes HEGs act only to
ensure their own duplication. When one member of a chromosome pair contains an HEG but
the other does not, the enzyme it encodes selectively cleaves the empty chromosome at the
appropriate site the cellular DNA repair machinery then copies the HEGcontaining
chromosome to fill in the resulting break. Scientists have assumed that once HEGs are
established in a population, they must be transmitted horizontally to another population or
species to avoid extinction due to accumulation of inactivating mutations over time. However,
new mathematical models from University of Tokyo
Yahara, K., Fukuyo, M., Sasaki, A. amp Kobayashi, I. Evolutionary maintenance of selfish
homing endonuclease genes in the absence of horizontal transfer. Proceedings of the
National Academy of Sciences USA , .
researcher Ichizo Kobayashi and his colleagues at Kurume University and the Graduate
University for Advanced Studies, Japan, suggest otherwise. Mutation of the HEG locus to an
inactive but also uncleavable pseudogene sometimes carries a cost to the host organisms
reproductive fitness, and they identified this as a key consideration in determining the
mechanism of HEG persistence. But regardless of whether or not this cost becomes
significant, Kobayashis team could identify multiple scenarios that would enable these genes
and, potentially, other selfish genetic elements to survive over long periods of time within
isolated populations.
and which are essential in fission yeast Schizosaccharomyces pombe, a model for studying
basic biological processes in eukaryotes, a group of organisms that includes humans. The
researchers systematically knocked out some , genes covering more than the fission yeast
genome, and replaced each one with a marker gene flanked by unique molecular bar codes.
This allowed them to assess experimentally which genes were needed for viability, growth
and reproduction in the laboratory. By comparing their results with previous findings from
budding yeast Saccharomyces cerevisiae used in baking and brewing, they found that fission
yeast has more essential genes than budding yeast despite having fewer genes in total.
They also found that essential genes tend to be present as singlecopy, evolutionarily
conserved genes, often interrupted by noncoding DNA sequences called introns, possibly
reflecting aspects of their regulation and/or ancient origin. In contrast, nonessential genes
are more often duplicated in the genome, and less likely to contain introns or to be present in
both species. The researchers believe that their genomewide fissionyeast deletion library will
facilitate the identification of eukaryotic molecular pathways and networks, benefiting both
biotechnology and biomedical research.
Kim, D.U. et al. Analysis of a genomewide set of gene deletions in the fission yeast
Schizosaccharomyces pombe. Nature Biotechnology , .
www.natureasia.com/AIMBN
AIMBN RESEARCH GENETICS Published in PLoS Biology
Exploring the genetic generation gap
The emergence of functional mismatches between genes in the nucleus and the
mitochondria accelerates the evolutionary process
As new species emerge over the course of evolution, they lose the capacity to generate
fertile progeny with members of their parent species. In many cases, such reproductive
isolation is presumed to occur via accumulation of mutations that disrupt interactions
between each species complement of genes. JunYi Leu and colleagues at Academia Sinica
have explored an alternative mechanism for reproductive isolation in yeast, driven by the
emergence of incompatibilities between the nuclear genome and mitochondria, an essential
metabolic organelle with its own discrete set of genes. The researchers established a
multistage breeding scheme for generating crosses between yeast species and identifying
pairs for which this cytonuclear incompatibility was a primary obstacle to offspring fertility.
Leu and colleagues were subsequently able to identify genes responsible for this
incompatibility by screening genomic libraries for sequences that restored the mitochondrial
function of the various infertile hybrids. Their data revealed two genes, MRS and AIM, which
appear to contribute to cytonuclear incompatibility via distinct biological mechanisms.
Strikingly, the patterns of emergence for these mutations directly correlated with known
evolutionary history of the various species, and the authors conclude that genomic changes
associated with cytonuclear incompatibility may represent important early drivers of the
speciation process.
RESEARCH HIGHLIGHT COLLECTION Chou, J.Y., Hung, Y.S., Lin, K.H., Lee, H.Y. amp
Leu, J.Y. Multiple molecular mechanisms cause reproductive isolation between three yeast
species. PLoS Biology , e .
ISTOCKPHOTO/TePIC
Published in the Journal of Molecular Biology
Evolution through , generations
Tracking longterm evolution in bacteria reveals that genome change and adaptation are
linked in highly complex ways
In addition to showing that relationships between genomic change and adaptation are
complex, the results of an extensive analysis of the evolution of a population of bacteria over
, generations have revealed that the pace of genome evolution is not directly coupled to
improvement in fitness. The international study, involving the Korea Research Institute of
Bioscience and Biotechnology KRIBB, does, however, clearly demonstrate the validity of
Darwins theory of evolution by natural selection. The researchers believe that their work can
be applied to bettering the performance of industrial strains of bacteria, as well as
contributing to understanding the tempo and mode of evolution. In , researchers from
Michigan State University led by Richard Lenski began to grow Escherichia coli in the
laboratory at a constant rate of six or more generations a day. Samples were frozen for
future analysis. A team led by Jihyun F. Kim at KRIBB sequenced and compared bacterial
genomes from samples taken at ,, ,, ,, ,, , and , generations, after determining the complete
genome sequence of the ancestral strain. In addition, Dominique Schneiders group in
Grenoble, France, measured the fitness of each population, in part by moving mutations
back to ancestral populations and observing their impact.
Barrick, J. E. et al. Genome evolution and adaptation in a longterm experiment with
Escherichia coli. Nature , Jeong, H. et al. Genome sequences of Escherichia coli B strains
REL and BLDE. Journal of Molecular Biology , .
GENETICS AIMBN RESEARCH Published in Acta Pharmacologica Sinica
Thank you for not smoking
gender differences in the frequency of a cancerassociated mutation among Chinese patients
may arise from differences in smoking behavior
ISTOCKPHOTO/MAC
Patients diagnosed with lung adenocarcinoma, the most common of all lung cancers, can
often benefit from treatment with drugs such as Iressa
Published in Nature Genetics
lung cancer link
A newly identified genetic variant is associated with increased lung cancer risk in east Asian
Lung cancer is a leading cause of death worldwide, but little is known about the genetic
factors that confer susceptibility to it. Yataro Daigo of the University of Tokyo and Shiga
University of Medical Science, and his colleagues have now identified a gene variant in the
Japanese and Korean populations that is associated with increased risk of the disease. The
researchers performed a genomewide association study that compared the entire genomes
of , lung cancer patients with those of , healthy controls. They found that a variant of the TP
gene is strongly associated with increased susceptibility for lung adenocarcinoma, which
accounts for approximately of all lung cancer cases, and whose prevalence is increasing
among East Asians and Western Europeans.
Miki, D. et al. Variation in TP is associated with lung adenocarcinoma susceptibility in
Japanese and Korean populations. Nature Genetics , .
TP belongs to a family of genes whose members are involved in development, differentiation
and cellular responses to stress, and are known to function as tumor suppressors. The newly
identified genetic variation in TP may play a role in regulating TP expression, but further
research is needed to establish exactly how it influences susceptibility to lung
adenocarcinoma. We are continuing further functional studies to clarify the mechanisms of
TP on lung adenocarcinoma susceptibility, says Daigo, as well as additional studies on other
ethnic populations.
and Tarceva, which inhibit certain signaling enzymes known as kinases. These compounds
are most effective in patients with mutations in the gene encoding one particular kinase, the
epidermal growth factor receptor EGFR. Previous studies have suggested that females in
general, and males and females who have never smoked are especially likely to acquire
such EGFR mutations, but new findings from a team led by Hongbin Ji at the Shanghai
Institutes for Biological Sciences suggest that for some populations, this gender effect may
simply be an artifact of lifestyle differences. Chinese women are considerably less likely to
smoke than their male counterparts, a trend that Ji and coworkers clearly observed in their
analysis of adenocarcinoma tissue samples from Chinese patients. When they independently
considered only those individuals who had never smoked, they were surprised to note that
EGFR mutations occurred with essentially the same frequency among both women and men
. versus .. These findings suggest that a history of smoking is a more important consideration
than gender in determining whether Chinese patients diagnosed with adenocarcinoma are
likely to benefit from kinase inhibitor treatment.
Sun, Y. H. et al. Comparable rate of EGFR kinase domain mutation in lung adenocarcinomas
from Chinese male and female neversmokers. Acta Pharmacologica Sinica , .
www.natureasia.com/AIMBN
AIMBN RESEARCH GENETICS Published in Proceedings of the National Academy of
Sciences USA
Extremophiles Cold complexity
An impressive variety of microbes can survive in the polar deserts of Antarctica
The McMurdo Dry Valleys, an extremely cold, dry desert region representing the largest
icefree area in Antarctica, support a higher variety of life than scientists once believed.
During a recent study of permafrost in the high inland McKelvey Valley, Steve Pointing and
colleagues at the University of Hong Kong, along with Roberta Farrell at the University of
Waikato, New Zealand, and coworkers in the USA, discovered previously unreported
bacteria and fungi existing in highly specialized microbial communities. The researchers
used molecular techniques to assess the relative abundance of different microbes and
identify variations in community structure. They found socalled endolithic and chasmolithic
cyanobacteria, which are capable of photosynthesis and occupy ecological niches in the
pores and cracks in sandstone outcrops. The surrounding soil, however, contained very few
organisms except on scattered quartz rocks. Our data counters the viewthat cyanobacteria
are restricted to wetter, more productive polar locations, the researchers note in their
publication. The data also showed that the abundance of microbes in some areas may
occasionally increase due to moisture input from melting snow. However, they found no
significant difference in the biodiversity of communities at different locations probably
because only a few resilient species can survive in such an extreme environment.
RESEARCH HIGHLIGHT COLLECTION
Pointing, S. B. et al. Highly specialized microbial diversity in hyperarid polar desert.
Proceedings of the National Academy of Sciences USA , .
Published in the Journal of Human Genetics
Mountains that make the people
Culture is geographically defined by the Himalayas, and DNA fingerprinting shows that these
mountains also impede gene flow
The genetic structure of the peoples of Tibet is consistent with the geographical barriers and
the languages they speak, a study led by researchers from Fudan University in Shanghai has
shown. The researchers found Tibetans are relatively similar to north Asians, but the small
Deng minority in the Himalayan Mountains of southeast Tibet is unique. The Deng people
are most closely related to a neighboring minority, the Luoba/Adi. The two are genetically
more similar to each other than to any other ethnic group in East Asia. And although the
Deng and Luoba/Adi live in isolated valleys on the southern side of the Himalayas, the
researchers found no detectable genetic link with Indian peoples. These assessments were
made on the basis of the analysis of different regions of short tandem repeats STRs from
Deng, central Tibetans and eastern Tibetans. STRs are groups of repeated sequences of
DNA code between two and units long, often used in DNA fingerprinting. The numbers of
repeats varies in different individuals but the more closely people are related, the more
similar the pattern of repeats. There was not enough evidence to reconstruct a more detailed
history of the settlement of Tibet, the researchers say.
Kang, L. et al. Genetic structures of the Tibetans and the Deng people in the Himalayas
viewed from autosomal STRs. Journal of Human Genetics , .
ISTOCKPHOTO/ gOINyK
GENETICS AIMBN RESEARCH Published in the British Journal of Cancer
Combining forces to combat cancer
ISTOCKPHOTO/BeHOlDINgeye
Research into colorectal cancer genetics gets a largescale boost from the establishment of a
multinational research consortium
The COGENT COlorectal cancer GENeTics consortium, comprised of some twenty research
groups, including the Human Genome Research Center at the University of Tokyo, has been
established to study genetic predisposition to colorectal cancer. Colorectal cancer is the
fourth most common form of cancer in the United States, and causes more than , deaths
worldwide annually. Although inherited susceptibility underlies approximately of genetic
variance in colorectal cancer, highrisk mutations account for less than of cases. The goal of
the COGENT consortium is therefore to identify and characterize socalled lowpenetrance
genetic variants. The risk of colorectal cancer associated with each of these is modest, but
they occur with high frequency in the population, and may significantly affect an individuals
risk when acting together. Very few of these variants have been identified to date, because of
small sample sizes and the limitations of early genetic testing methods. COGENT overcomes
these limitations by enrolling researchers who are conducting studies involving a minimum of
patients and controls. Collectively, the studies performed by researchers in the consortium
have included , cases and , controls. Pooling these data provides a costeffective means of
performing powerful statistical analyses that could not be achieved from an individual study.
Tomlinson, I. P. M. et al. COGENT Colorectal cancer GENeTics an international consortium
to study the role of polymorphic variation on the risk of colorectal cancer. British Journal of
Cancer , .
Published in Cell Research
Filling the gaps of a genome map
Application of a proteomic technique allows better annotation of the genome reported for the
pathogenic bacterium leptospira interrogans
The Genomic Age has allowed scientists to quickly sequence the complete genomes of
several species, including important human pathogens. Rong Zeng and colleagues in
Shanghai have now used a proteomics technique to provide the information needed to more
accurately map the genome of Leptospira interrogans, a freeliving pathogenic spirochete that
causes leptospirosis, a dangerous malady marked by sever fever and muscle ache. The
genome of this bacterium was sequenced in . Fully annotating the sequenced genome of a
species involves identifying all of its genes and the proteins that they encode. Identifying all
the posttranslational modifications of these proteins is also useful as they are important
regulators.
Cao, X.J. et al. Highcoverage proteome analysis reveals the first insight of protein
modification systems in the pathogenic spirochete Leptospira interrogans. Cell Research , .
Zengs group used a computational algorithm that predicts the existence of genes from
known sequence data while also performing mass spectrometry on cell extracts to physically
identify expressed proteins. These two approaches allowed the team to identify novel genes
in the bacteriums genome, better define the start site of several other genes and identify the
posttranslational modifications of a large percentage of its proteome. This annotation of
L.interrogans may eventually allow for the identification of gene products needed for its
survival and thus the development of new antibiotics.
www.natureasia.com/AIMBN
AIMBN RESEARCH GENETICS Published in Nature Genetics
Pinpointing inflammatory genomic changes
The effects of a subtle sequence variation in an immunityrelated gene may predispose
individuals to rheumatoid arthritis and other inflammatory diseases
Over the course of rheumatoid arthritis, the immune system mobilizes T cells against tissues
within the joints to produce debilitating pain and inflammation. Genetic factors contribute to
the onset and severity of this disorder. A team of researchers from several Japanese
research institutes recently surveyed the genomes of more than , Japanese patients and
controls and revealed a twonucleotide sequence variant that has an apparently strong role in
conferring vulnerability to rheumatoid arthritis. The research team, which was led by Yuta
Kochi and Kazuhiko Yamamoto of the RIKEN Center for Genomic Medicine in Yokohama,
identified these changes within the CCR gene, which encodes a receptor for signals that
promote activation of the immune system. Intriguingly, CCR expression is generally
associated with Th cells, a subclass of helper T cells that is poorly understood but has been
tentatively linked with rheumatoid arthritis pathology. The investigators noted that these
sequence changes dramatically affected CCR expression levels in patients, and that
individuals with the highest CCR levels were also significantly more likely to exhibit increased
production of certain proinflammatory signals. Their data also offer compelling evidence that
the gene variant may also predispose some individuals to Graves disease and Crohns
disease, two other common autoimmune inflammatory disorders.
RESEARCH HIGHLIGHT COLLECTION Kochi, Y. et al. A regulatory variant in CCR is
associated with rheumatoid arthritis susceptibility. Nature Genetics , .
ISTOCKPHOTO/SueMACK
Published in Proceedings of the National Academy of Sciences USA
Keeping track of changes
Coordination between two important pathways for the chemical modification of chromosomes
leads to finetuned regulation of gene expression
Gene activity levels depend heavily on socalled epigenetic modifications, such as the
targeted addition of methyl chemical groups to individual cytosine nucleotides or to the
histone proteins around which genomic DNA is wrapped. Scientists have proposed that
these two processes are closely linked, with the methylation state of the tail domain of
histone H directly affecting cytosine methylation within individual genes, and a new study
from a team led by JinQiu Zhou and GuoLiang Xu at the Shanghai Institutes for Biological
Sciences offers strong support for this model. The researchers introduced mouse genes
encoding DNA methyltransferase enzymes into yeast, which lack this pathway but retain an
innate capacity for histone methylation, and noted that the activity of these enzymes was
apparently blocked by methylation of a key lysine residue in the H tail, HK. In fact, DNA
methylation was consistently absent at the actively transcribed gene loci where HK
methylation was markedly enriched disruption of the histone methylation pathway in turn led
to DNA methylation at previously unmarked sites. They found that DNA modification is
dependent on the capacity of DNA methyltransferases to bind directly to the H tail, and
hypothesize that HK modification helps activate genes by masking this binding site and
thereby preventing DNA methylationmediated repression.
Hu, J.L. et al. The Nterminus of histone H is required for de novo DNA methylation in
chromatin. Proceedings of the National Academy of Sciences USA , .
GENETICS AIMBN RESEARCH Published in Nature Genetics
Pinpointing genetic susceptibility to Parkinsons disease
ISTOCKPHOTO/BANKSPHOTOS
A largescale genomic study reveals two previously unidentified genetic risk factors for
Parkinsons disease
A consortium led by Wataru Satake of Kobe University Graduate School of Medicine,
including researchers from the RIKEN Center for Genomic Medicine and the RIKEN Brain
Science Institute, Japan, has identified two previously unknown genetic variants associated
with increased susceptibility to Parkinsons disease PD. PD is a progressive
neurodegenerative disorder caused by death of dopamineproducing midbrain neurons and
characterized by tremor, rigidity and slow movements. In a genomewide association study
GWAS, the researchers compared the entire genomes of , Japanese PD patients with those
of , healthy controls. One of the variants identified lies within the PARK region and encodes a
magnesium transporter. The other is in BST, which encodes an enzyme that catalyses
formation of cyclic ADPribose, which releases calcium from intracellular stores. Magnesium
deficiency has been implicated in PD and other neurodegenerative diseases disrupted
calcium homeostasis is thought to compromise dopaminergic neurons. The researchers
compared these results with those of a European GWAS. They found the BST variant only in
Japanese patients, whereas a variant of the MAPT gene was found only in Europeans. The
PARK variants, and previously identified variants in the SCNA and LRRK genes, were
common to both populations. Although most cases of PD are sporadic, identification of these
variants and others will improve understanding of PD.
Satake, W. et al. Genomewide association study identifies common variants at four loci as
genetic risk factors for Parkinsons disease. Nature Genetics , .
Published in Nature Genetics
Asian genomes point the way
Personalized medicine takes a step closer to reality with a new technique for analyzing
genomic variation
An international team of molecular geneticists has developed a highly sensitive technique for
detecting the differences between human genomes known as copy number variants CNVs.
The researchers used their new technique, which provides finer resolution than previously
possible, on individuals each of Korean, Chinese and Japanese origin, and found CNVs of
which , were distinctively Asian. Humans ordinarily have two copies of each region of DNA,
one from each parent. The ability to sequence whole genomes, however, has shown
widespread variation in the number of copies between different individuals and ethnic
groups. The CNVs are the result of rearrangements such as deletions and duplications. Led
by JeongSun Seo of Seoul National University, the researchers
Park, H. et al. Discovery of common Asian copy number variants using integrated
highresolution array CGH and massively parallel DNA sequencing. Nature Genetics , .
developed a strategy combining array comparative genomic hybridization aCGH with whole
genome sequencing data. Initially, the researchers used socalled millionprobe aCGH
technology to assess the relative differences in copy number between test and reference
genomes for regions as short as base pairs. The sequencing data then allowed the relative
copy numbers to be turned into absolute numbers. Our results provide guidance for future
studies in genomic medicine in Asian populations, especially those that identify ethnic
differences in predisposition to disease and drug response, the team says.
www.natureasia.com/AIMBN
AIMBN RESEARCH GENETICS Published in the Journal of Human Genetics
Different strokes, different genes
Two genetic variants that predispose Caucasians to stroke are also found in the Japanese
population
ISTOCKPHOTO/PHIlARTPHACe
Stroke affects millions of people every year and is a leading cause of death, but very little is
known about its genetic predisposition factors. Comparing the entire genomes of healthy and
diseased individuals in genomewide association studies GWASs is a powerful way of
identifying diseaserelated genes. Last year, an international team of researchers identified
two genetic variants on chromosome that are associated with increased risk of stroke in
Caucasians in a GWAS. Now, Tomonaga Matsushita of the RIKEN Center for Genomic
Medicine, Japan, and his colleagues have reported that one of these variants is also
associated with susceptibility to stroke in the Japanese population. The researchers
replicated the earlier GWAS using Japanese instead of Caucasian participants, and analyzed
the genomes of , patients who had suffered different types of stroke and , healthy controls.
They found that the two previously identified variants are also present in the Japanese, and
are most closely associated with atherothrombitic stroke, in which a large artery to the brain
or smaller blood vessel is blocked by a clot. Stroke is a heterogeneous disease that
comprises several subtypes, says Matsushita, and very few associated genetic variants have
been identified. We now know of five, three of which appear to be specific to Asian
populations.
RESEARCH HIGHLIGHT COLLECTION
Matsushita, T. et al. Association study of the polymorphisms on chromosome p with
atherothrombotic stroke in the Japanese population. Journal of Human Genetics , .
Published in Nature Genetics
Casting wide yields aneurysm suspects
Balloonlike dilations of arteries in the brain, called secular intracranial aneurysms, can cause
severe neurological damage and death. They are the most common type of brain aneurysm,
affecting approximately of the population. Richard Lifton of Yale University School of
Medicine, USA, in collaboration with a large team of international researchers, including
three from the University of Tokyos Institute of Sciences, have identified three gene variants
associated with increased risk for intracranial aneurysms. The researchers performed a
genomewide association study GWAS comparing the genomes of healthy and diseased
individuals from Europe and Japan. By combining the data with those from a previous
GWAS, they analyzed a
A largescale genetic study identifies three genes associated with increased risk of brain
aneurysm
total of , aneurysm patients and , controls. Their analysis not only confirmed the three gene
variants identified in the previous study, but also identified three more hitherto unidentified
variants that are associated with increased risk for intracranial aneurysm. Based on their
chromosomal positions, the researchers speculate that the newly identified gene variants are
likely to play a role in cell division, and in maintaining the stem cells that are responsible for
the formation and repair of blood vessels. The team writes that these data could contribute to
the preclinical identification of individuals at high risk of developing intracranial aneurysms.
Yasuno, K. et al. Genomewide association study of intracranial aneurysm identifies three
new risk loci. Nature Genetics , .
GENETICS AIMBN RESEARCH Published in Nature
Plant fungis jump on pathogenicity
genome study reveals horizontal gene transfer as a driver of rapid adaptation in
diseasecausing plant fungi
ISTOCKPHOTO/lIeNKIe
An international genome consortium including researchers from Seoul National University in
Korea has found evidence that socalled jumping
Published in DNA Research
Sprouting information
Comparisons of the mungbean chloroplast genome reveal evolutionary relationships and will
help genetically improve crop species
Photosynthesis occurs in chloroplasts, organlike structures within the cells of green plant
tissues. Chloroplasts are believed to have evolved from bacteria and have their own
genomes. A team led by Sithichoke Tangphatsornruang of the National Center for Genetic
Engineering and Biotechnology in Thailand has sequenced the chloroplast genome of
mungbean Vigna radiata. Mungbean belongs to the family Fabaceae, which contains some ,
species, and is an economically important legume with proteinrich seeds. As in other higher
plants, the mungbean chloroplast genome is a circular molecule of doublestranded DNA. The
researchers found that it is also of a similar size to those of other flowering plants, and that it
contains a pair of inverted repeats of nucleotide sequences separated by two singlecopy
regions.
Tangphatsornruang, S. et al. The chloroplast genome sequence of mungbean Vigna radiata
determined by highthroughput pyrosequencing structural organization and phylogenetic
relationships. DNA Research , .
DNA sequencing revealed genes, including genes duplicated in the inverted repeat, while
nearly a half of the genome is noncoding, as in other sequenced chloroplast genomes.
Although chloroplast structure and gene content is generally conserved, the researchers did
find a relatively large amount of genome rearrangement, as reported for other legumes.
Comparison with the previously sequenced chloroplast genomes of other members of the
Fabaceae and other plants allowed the researchers to reconstruct evolutionary relationships.
Future studies should facilitate genetic engineering of agriculturally important legume
species.
genes segments of DNA that move location in the genome facilitate rapid adaptation of
important fungal pathogens to new plant hosts. Species of fungi belonging to the genus
Fusarium cause economically significant damage to crops around the world through blights,
root rots and wilts. Some Fusarium species are host specific, while others have broad host
ranges. Fusarium oxysporum, for example, infects a wide range of plants as well as humans
with compromised immune systems. The researchers sequenced the genomes of the maize
pathogen F.verticillioides, the toxins of which contaminate grain, and a strain of F.oxysporum
that causes tomato wilt. By comparing these genomes and that of the previously sequenced
cereal pathogen F.graminearum, they identified lineagespecific genomic regions of
F.oxysporum rich in jumping genes and other evolutionarily distinct genes encoding virulence
factors. By simple coincubation, they were able experimentally to transfer lineagespecific
chromosomes between strains, conferring an otherwise nonpathogenic strain with the ability
to cause tomato wilt. The researchers propose that horizontal transfer of virulence genes
between strains may mediate the rapid emergence of new pathogenic lineages, with
important implications for the management of crop diseases.
Ma, L.J. et al. Comparative genomics reveals mobile pathogenicity chromosomes in
Fusarium. Nature , .
www.natureasia.com/AIMBN
AIMBN RESEARCH GENETICS Published in Nature Genetics
Transcending ethnic differences
A genomewide analysis of the gene variants associated with blood and enzyme traits reveals
similarities and differences between the Japanese and europeans
Sixty single nucleotide polymorphisms SNPs, or DNA variations, associated with differing
characteristics of blood, and a further associated with biochemical traits, have been
uncovered in genomewide studies of some , individuals whose genetic material is stored in
Japans Biobank. Of these associations, just over half were reported for the first time. The
work was completed by researchers from the University of Tokyo and RIKEN in Japan. When
the researchers compared their Japanese results with previous studies in European
populations, the vast majority of the associations found among Europeans were replicated. A
significant advantage of the Japanese work is that the array of data available on donor
individuals allows for adjustment for factors which can potentially bias results. The research
reveals genetic associations with differences in hemoglobin concentrations and platelet,
white and red blood cell counts, as well as levels of lipids, proteins, albumin, blood urea
nitrogen and several enzymes. Knowledge of the genes involved in some of the bloodrelated
associations gives rise to plausible explanations for the observed impacts of the SNPs. Often
these genes are related to cell division. Most of the differences found between ethnic groups
involve SNPs at low frequency in one or other of the populations.
Kamatani, Y. et al. Genomewide association study of hematological and biochemical traits in
a Japanese population. Nature Genetics , .
Published in Nature Genetics
linking more suspects to bowel disease
Across Asia, the prevalence of ulcerative colitis, a type of inflammatory bowel disease, is
rising. Now, as reported in the journal Nature Genetics, Japanese researchers have
identified two genes that are associated with this disease in the Japanese population SLCA
and FCGRA. The SLCA protein is involved in ion transport in intestinal cells, and its
expression is reduced in individuals with ulcerative colitis. Near, but not within, the coding
region for this protein, the researchers discovered changes or polymorphisms in the genomic
DNA that they had established is linked to the disease. They therefore propose that these
polymorphisms may act to regulate the levels of SLCA gene expression. FCGRA encodes a
receptor that binds to antibodies and drives the
A largescale genetic study identifies three genes associated with increased risk of brain
aneurysm
immune response. In individuals with ulcerative colitis, the researchers found a
polymorphism that enhances the affinity of the receptor for antibodies, making it easier for
immune cells to be activated. Interestingly, an opposing polymorphism that reduces the
receptors affinity for antibodies has previously been linked to autoimmune diseases like
lupus. Another area of the genome that the scientists associated with increased disease risk
did not contain any known genes. More research must be done to determine whether or not
this region is involved in regulating the expression of other genes.
Asano, K. et al. A genomewide association study identifies three new susceptibility loci for
ulcerative colitis in the Japanese population. Nature Genetics , .
RESEARCH HIGHLIGHT COLLECTION
ISTOCKPHOTO/TOMMl
GENETICS AIMBN RESEARCH Published in Nature Genetics
Getting at the roots of cancer risk
genomic analysis reveals novel risk factors for a throat cancer with elevated prevalence
throughout much of Asia
AFIP/PeIR.NeT
Relative to the general population, individuals in south China or Southeast Asia are at
considerably greater risk of
Published in Nature Genetics
Diversity in the genome
The first Japanese genome reveals the extent of human genetic variation
The first whole genome sequence of a Japanese individual reveals that the human genome
contains considerable and as yet undiscovered variation. Tatsuhiko Tsunoda of the RIKEN
Center for Genomic Medicine and his colleagues used sophisticated DNA sequencing
technology and analysis methods to analyze rare variations that are not normally targeted by
previous methods. They sequenced the whole genome of a Japanese male
comprehensively, covering . of the entire sequence times. They then compared the
sequence with six other previously sequenced human genomes from nonJapanese
populations. Their analysis revealed numerous variations in the Japanese individuals
genome, many of which have not been reported. These included more than . million single
nucleotide
Fujimoto, A. et al. Wholegenome sequencing and comprehensive variant analysis of a
Japanese individual using massively parallel sequencing. Nature Genetics , .
variations, over , deletions, duplicated chromosomal regions and variations in the number of
copies of certain genes. Functionally important variations were more enriched in rare ones
than in common ones. The results suggest that a considerable number of rare variations,
particularly those associated with disease, may still be undiscovered. They also show that
wholegenome sequencing can be used to identify such variations, and that it will eventually
be valuable for personalized medicine. We want to expand our scope to study diseases
caused by multiple variants, says Tsunoda, and highthroughput sequencing technologies will
greatly help such analyses.
developing nasopharyngeal carcinoma pictured, a tumor of the upper throat. Environmental
factors are partly to blame, including smoking or exposure to infection by EpsteinBarr virus.
However, there is also clear evidence for genetic risk factors. A recent study, led by YiXin
Zeng of Chinas Sun YatSen University Cancer Center and Jianjun Liu of the Genome
Institute of Singapore, has uncovered several such candidate loci based on their analyses of
large cohorts of southern Chinese individuals. Zeng, Liu and their colleagues performed a
genomewide association study that assessed the distribution of tiny DNA sequence
variations within these individuals. Their goal was to zoom in on variants with a statistically
robust correlation with the onset of nasopharyngeal carcinoma. Some of these hits provided
strong additional support for previous findings suggesting a meaningful connection with the
HLA genes, which contribute to immune system function. However, Liu and Zeng also
identified entirely novel risk factors, including a trio of genetic loci that have already been
associated with leukemia and lymphoma. Such blood disorders are often associated with
nasopharyngeal carcinoma, and the researchers intend to investigate the interconnections
between these risk factors in future studies.
Bei, J.X. et al. A genomewide association study of nasopharyngeal carcinoma identifies three
new susceptibility loci. Nature Genetics , .
www.natureasia.com/AIMBN
neuroscience amp Developmental Biology
ISTOCKPHOTO/SeBASTIAN KAulITzKI
NEUROSCIENCE amp DEVELOPMENTAL BIOLOGY AIMBN RESEARCH Published in
Neuron
Muscling in on receptor clusters
A protein that organizes receptors at cell membranes is essential for development of the
neuromuscular junction
Efficient signaling at the neuromuscular junction the interface between nerves and muscles
requires precise alignment of synaptic vesicles at the nerve
Published in The Journal of Experimental Medicine
A model of dementia
Transgenic mice reveal the cause of a common neurodegenerative disease
A common form of dementia called frontotemporal lobar degeneration with ubiquitinpositive
inclusions FTLDU is associated with insoluble protein clumps, containing TDP, which
accumulate within neurons. CheKun James Shen from Academia Sinica, Taiwan, and his
colleagues created genetically engineered mice overexpressing TDP in the forebrain and
hippocampus, and found that this protein accumulated within neurons, causing severe
learning and memory defects. The mice could not remember the location of a hidden
platform in a water maze, and failed to associate a location in their housing chamber with
electric shocks. Additional behavioral tests showed that TDP overexpression affected the
animals motor functions, with coordination, balance and grasping reflex severely
Tsai, K.J. et al. Elevated expression of TDP in the forebrain of mice is sufficient to cause
neurological and pathological phenotypes mimicking FTLDU. The Journal of Experimental
Medicine , .
impaired by six months of age. The memory defects were caused by altered levels of
memoryassociated proteins in the hippocampus. This led to impaired longterm potentiation,
the process by which neuronal connections are strengthened, and which is widely believed to
underlie memory formation. The mice also exhibited characteristic FTLDU neuropathologies,
which developed as in humans with the disease, and had shorter lifespans than normal
animals. We have used these mice to test the therapeutic effects of a few drugs, says Shen,
and are now analyzing the defects of neuronal development, neuron structure, gene
expression, and protein metabolism misregulation in this FTLDU mouse model.
terminal with acetylcholine receptors AChRs in the muscle cell membrane. During
development, AChR clusters are transformed from a simple ovalshaped structure to a
complex pretzelshaped one that is perfectly aligned with the motor neuron nerve terminal.
This involves disassembling certain regions of the AChR clusters, but the underlying
molecular mechanisms are unknown. A research team led by Nancy Ip of Hong Kong
University of Science and Technology has now shown that the protein ephexin is essential
for AChR cluster maturation. Ephexin was previously known to interact with EphA, a receptor
tyrosine kinase involved in gene transcription at the neuromuscular junction, but the role of
ephexin was unclear. The researchers found that mice lacking the ephexin gene exhibit
severe muscle weakness and impaired nervemuscle signaling, because the neuromuscular
junction does not mature properly, and the pretzelshaped structure fails to form. Experiments
in cultured muscle cells revealed that ephexin regulates AChR cluster stability by activating
the enzyme RhoA GTPase, which induces reorganization of the actin cytoskeleton. This
raises the possibility that introducing ephexin might be a potential therapeutic approach for
neuromuscular diseases such as myasthenia gravis, says Ip.
Shi, L. et al. Ephexin is required for structural maturation and neurotransmission at the
neuromuscular junction. Neuron , .
elSeVIeR
www.natureasia.com/AIMBN
AIMBN RESEARCH NEUROSCIENCE amp DEVELOPMENTAL BIOLOGY Published in
Proceedings of the National Academy of Sciences USA
Benefitting from mixed messages
Crosstalk between two signaling pathways ensures proper development of the nervous
system within a developing embryo
The transition from a simple ball of cells into a properly formed embryo depends on the
coordinated interplay of numerous signal transduction pathways. By modulating each others
activity, each signaling factors effects are constrained to ensure appropriate body patterning
of the developing organism. A team led by Naihe Jing of the Shanghai Institutes for
Biological Sciences, China, has provided a novel example of such regulatory crosstalk during
the formation of the central nervous system. This process is directed in part by bone
morphogenetic protein BMP signaling, which coordinates dorsalventral patterning, and
retinoic acid RA signaling, which contributes to anteriorposterior patterning. Jing and
colleagues demonstrated that RA gradually inhibits BMP activity in cultured mouse cells, an
effect mediated by the accelerated degradation of Smad, a key downstream effector of BMP
signaling. The same effect was also observed in vivo in chicken embryos. BMP signaling is
typically observed in the dorsal region of the neural tube, the precursor to the mature central
nervous system, but this activity could be restricted by RA signaling. Likewise, inappropriate
BMP activity in embryos can markedly disrupt normal neural development, but the
researchers showed that these perturbations could be mitigated through the effects of RA,
highlighting the crucial interplay between these two networks.
RESEARCH HIGHLIGHT COLLECTION Sheng, N. et al. Retinoic acid regulates bone
morphogenic protein signal duration by promoting the degradation of phosphorylated Smad.
Proceedings of the National Academy of Sciences USA , .
ISTOCKPHOTO/HeRBAP
Published in Neuron
Sniffing out the olfactory code
genetically engineered mice provide fresh insights into how mammalian neuronal circuits
process odor information
Odors are detected by olfactory sensory neurons OSNs that express olfactory receptors and
form connections with mitral/tufted M/T cells in the main olfactory bulb, which sends the
information to the brain. Understanding how odor information is processed involves
comparing OSN responses with those of their corresponding M/T cells. This is possible in
fruit flies, but is technically challenging in the more complex olfactory system of mammals. To
overcome this, Minmin Luo of Chinas National Institute of Biological Sciences and his
colleagues examined genetically engineered mice with OSNs expressing a specific olfactory
receptor labeled with green fluorescent protein. This enabled them to record the electrical
activity of specified OSNs and their corresponding M/T cells in response to various odors.
Tan, J., Savigner, A., Ma, M. amp Luo, M. Odor information processing by the olfactory bulb
analyzed in genetargeted mice. Neuron , .
Their analysis revealed that M/T cells respond selectively to the odors detected by their
corresponding OSNs, but also respond weakly to additional, noncorresponding odors at
higher concentrations. In fruit flies, olfactory information is encoded differently, with projection
neurons responding broadly to odors detected by many different OSNs. Further experiments
revealed an important role for inhibitory neurons in the olfactory bulb. Blocking interneuron
activity reduced the selectivity of M/T cells at high odorant concentrations, suggesting that
they normally finetune M/T cell responses by suppressing the weak responses to
noncorresponding odors.
NEUROSCIENCE amp DEVELOPMENTAL BIOLOGY AIMBN RESEARCH Published in
Proceedings of the National Academy of Sciences USA
Shaping blood vessel formation
early development of the circulatory system is regulated by an enzyme that induces chemical
modification of chromosomes
Chromosomal DNA is wound around scaffolds composed of histone proteins, and gene
expression levels are profoundly affected by the extent to which
Published in Nature Neuroscience
Accelerating synapse formation
An interaction between a scaffold protein and a membrane protein helps neurons form
communication junctions
Thrombospondin TSP, a scaffold protein critical for blood clotting, also plays a role in the
formation of synapses between brain cells, according to a new study by researchers from the
Hong Kong University of Science and Technology. TSP, which is secreted by various cell
types including astrocytes in the brain, was already known to promote formation of synapses
in retinal ganglion cells, but whether it does so in neurons from the brain has been unclear.
Junyu Xu and Nan Xiao, led by neuroscientist Jun Xia, studied TSPs effect by applying TSP
to cultured rat hippocampal neurons. By staining for synapsin and PSD, proteins enriched in
the pre and postsynaptic membranes of
Xu, J., Xiao, N. amp Xia, J. Thrombospondin accelerates synaptogenesis in hippocampal
neurons through neuroligin . Nature Neuroscience , .
excitatory synapses, respectively, they found that TSP increases the number of synapse in
the earlier stages of neurons, but not in late stage mature neurons. This indicates that TSP
accelerates the formation of synapses in neurons from the brain. The researchers also found
that TSP binds the membrane protein neuroligin NL, and that reducing NL levels blocked
TSPinduced synaptogenesis. This indicates that the effect of TSP is mediated by an
interaction with NL. The effect in retinal ganglion cells is bigger, so may involve a different
mechanism.
specific DNA sequences are exposed to or masked from regulatory factors. Certain enzymes
can modulate gene expression by introducing chemical modifications to histones that help
regulate the arrangement of these proteins on chromosomal DNA. Now, new work from a
team led by QiuHua Huang, SaiJuan Chen and Zhu Chen at Chinas Shanghai Jiao Tong
University School of Medicine has revealed an important role for one such enzyme, the
histone methyltransferase Hypb, in blood vessel development. The authors observed that
mice lacking Hypb expression see image perish during embryonic development, with
profound physical defects that include a relatively primitive and disorganized circulatory
network. Compared with wildtype embryos, yolk sacs of Hypbdeficient mutants showed
limited capacity for formation of both capillaries and larger blood vessels, and gene
expression data revealed that loss of Hypb leads to misregulation of dozens of genes
involved in vascular development. Accordingly, targeted inactivation of HYPB in cultured
human endothelial cells impaired their innate capacity to selforganize and assemble into
tightly interconnected capillarylike structures, further supporting a role for this enzyme in the
direct regulation of genes that govern maturation of the vascular network.
Hu, M. et al. Histone H lysine methyltransferase Hypb/Setd is required for embryonic
vascular remodeling. Proceedings of the National Academy of Sciences USA , .
PNAS
www.natureasia.com/AIMBN
AIMBN RESEARCH NEUROSCIENCE amp DEVELOPMENTAL BIOLOGY Published in
Developmental Cell
Keeping genes in their place
expression of key developmental genes is restricted to certain embryonic regions via
activitymodulating chemical modifications to chromosomal proteins
ISTOCKPHOTO/HeNRIK
Embryonic segmentation is a key component of development, wherein the body is divided
into discrete zones whose maturation informs appropriate formation of the skeleton, nervous
system and other tissues. These segments are established by the action of numerous Hox
genes, whose activity is believed to be partly regulated by the chemical modification of
histones proteins that provide a structural scaffold for the chromosomal DNA containing
these genes. New work from a team at Australias Walter and Eliza Hall Institute of Medical
Research, led by Anne Voss and Tim Thomas, has provided experimental support for this
model, identifying histonemodifying enzyme Moz as an important regulator of anterior
embryonic development in mice. This protein directly contributes to the introduction of acetyl
groups at key points on histones associated with Hox gene clusters, and thereby helps
govern their activation. In the absence of Moz, expression of the majority of Hox genes are
shifted toward the posterior of the embryo, resulting in marked developmental defects in the
spinal column and nervous system. Importantly, these developmental problems can be
rescued by treatment with retinoic acid, a compound known to induce Hox gene activation.
The authors conclude that Moz directly contributes to the segmentation process via its
regulation of spatiallyappropriate expression of key Hox genes.
RESEARCH HIGHLIGHT COLLECTION
Voss, A. K., Collin, C., Dixon, M. P. amp Thomas, R. Moz and retinoic acid coordinately
regulate HK acetylation, Hox gene expression, and segment identity. Developmental Cell , .
Published in Developmental Cell
First instructions for male mice
The fate of male sex cells is determined by a molecule produced in the fetal testis
A protein called fibroblast growth factor FGF directs germ cells to differentiate into sperm,
researchers led by Peter Koopman from the University of Queensland, Australia, have found.
The finding finally explains how a germ cell becomes either a sperm or an egg after being
generated by meiosis, a form of cell division. Koopman and his colleagues performed cell
culture experiments and examined mutant mice lacking either the Fgf gene or the gene
encoding the enzyme CYPB. This enzyme is normally expressed in the testes and breaks
down a molecule called retinoic acid RA, which drives egg specification by increasing
expression of the Stra gene. The researchers found that germ cells in the testes of mice
lacking CYPB did not differentiate into eggs, suggesting that a signal other than RA controls
male sex cell determination. They then showed that FGF receptors are expressed on the
surface of germ cells in the testes, and that Fgf acts directly on the cells to alter gene
expression patterns. The team therefore concludes that high FGF levels in the testes
promote male sex cell fate by reducing expression of Stra and inducing expression of male
sex cell genes and is investigating how these findings relate to human infertility syndromes
and testicular germ cell cancers.
Bowles, J. et al. FGF suppresses meiosis and promotes male germ cell fate in mice.
Developmental Cell , .
NEUROSCIENCE amp DEVELOPMENTAL BIOLOGY AIMBN RESEARCH Published in Cell
A green light for growth
A small RNA molecule helps to stimulate body growth by removing obstacles to cell division
ISTOCKPHOTO/JANeFF
Proper body development requires careful regulation to ensure that the mature animal is
neither excessively big nor small, as either outcome could have serious negative
consequences.
AIMBN RESEARCH
SUPPORTED BY
Molecular biology from an Asian perspective
BioMAX Institute
National Taiwan University School of Medicine
Hyun, S. et al. Conserved microRNA miR/miR and its target USH/FOG control growth by
regulating PIK. Cell , .
Signaling pathways triggered by insulin play an important role in this process, but many gaps
remain in the current understanding of growth control mechanisms. Seoul National University
researcher V. Narry Kim and colleagues recently uncovered an important component of this
process while looking for microRNAs small RNA molecules that inhibit expression of selected
target genes that affect human cell proliferation. Her team observed strong effects from the
various miR RNAs, and decided to further investigate their function by characterizing their
fruit fly counterpart, miR. Flies with reduced miR levels were considerably smaller than
normal due to reduced levels of cell division, but Kims team noted that proper growth could
be fully rescued by selective expression of this microRNA in the fat body, a structure
associated with metabolic regulation. They subsequently identified the Ush gene as a key
target for downregulation by miR, and showed that both factors directly participate in
regulation of insulin signaling. Since both miR and Ush have highly conserved human
counterparts, the investigators hypothesize that this pathway could contribute to growth and,
if misregulated, tumorigenesis in higher organisms.
www.natureasia.com/AIMBN
www.natureasia.com/AIMBN
Structural amp Molecular Biology
ISTOCKPHOTO/MARTIN MCCARTHy
STRUCTURAL amp MOLECULAR BIOLOGY AIMBN RESEARCH Published in Proceedings
of the National Academy of Sciences USA
Getting in the blood
Increased understanding of how malaria parasites gain entry to red blood cells should aid
vaccine development
A team led by Alan Cowman of the Walter and Eliza Hall Institute of Medical Research in
Australia has made a significant breakthrough
Published in Nature
Making the cut
The malarial enzyme plasmepsin V mediates the entry of malarial proteins into host red
blood cells
Symptoms of malaria, such as coma, can occur when the Plasmodium falciparum parasite
infects red blood cells and exports its proteins into the host cell. This results in changing
some of the properties of red blood cells including how readily it sticks to receptors on
endothelial cells and other blood cells causing dysfunction in the body. Now, researchers in
Australia have identified plasmepsinV PMV as the protease the proteincutting enzyme that is
involved in this export process. Before being exported into red blood cells, malaria proteins
need to be cleaved at an amino acid sequence called the Plasmodium export element
PEXEL. The researchers honed in on PMV owing to its expression at the right time and place
during the P.falciparum
Boddey, J. A. et al. An aspartyl protease directs malaria effector proteins to the host cell.
Nature , .
life cycle, and because the PEXEL sequence showed similarities to protein sequences
cleaved by HIV proteases, which are targeted by HIV protease inhibitor drugs. The
researchers found that incubating PMV with PEXELcontaining peptides caused cleavage of
the peptides, but this could be blocked by mutating the PEXEL. In addition, parasites
expressing inactive PMV could not cleave these substrates. Importantly, PMV binds to
exported proteins, and seems to be involved in directing them to be exported into the host
blood cell. Developing drugs against PMV could become a novel therapeutic strategy against
malaria.
in understanding how malaria parasites invade human red blood cells erythrocytes. Malaria
is a major killer in the tropics. Humans can become infected when bitten by mosquitoes
carrying the malaria parasite. But to survive within the human host, the parasite must
successfully invade erythrocytes see image. Cowmans team studied erythrocyte invasion by
Plasmodium falciparum, which is responsible for the most severe form of human malaria.
Invasion involves the binding of molecular ligands expressed by the parasite to receptor
proteins on the erythrocyte surface. Some of these receptors contain sialic acid, whereas
others do not. By expressing different ligands, P.falciparum can switch between sialic
aciddependent and independent invasion pathways, helping it to evade the hosts immune
system. Cowman and his collaborators showed that a known protein called Complement
receptor CR is the erythrocyte receptor for PfRh, a major P.falciparum ligand essential for
sialic acidindependent invasion. This is especially important because only ligandreceptor
pairs involved in sialic aciddependent invasion had been identified previously. The
researchers hope that their discovery will lead to the development of a vaccine capable of
blocking erythrocyte invasion by malaria parasites.
Tham, W.H. et al. Complement receptor is the host erythrocyte receptor for Plasmodium
falciparum PfRh invasion ligand. Proceedings of the National Academy of Sciences USA , .
CDC/MelVIN
www.natureasia.com/AIMBN
AIMBN RESEARCH STRUCTURAL amp MOLECULAR BIOLOGY Published in Nature
Maintaining the silence
The enzyme eSeT prevents the expression of endogenous retroviruses to preserve the
integrity of the mammalian genome
Uncontrolled dispersal of endogenous retroviral ERV sequences throughout the mammalian
genome during early development can be harmful. The protein ESET can effectively silence
ERV sequences in embryonic stem ES cells, but not more mature cells, researchers from
Japan and Canada have found. ESET is a histone methyltransferase an enzyme that
transfers methyl groups onto histone proteins around which genomic DNA is wrapped.
Methylation of histone proteins or of the DNA itself can repress gene expression. Previous
reports had shown that DNA methylation plays a key role in ERV silencing in some cell
types, including germ cells, but another silencing pathway separate from DNA methylation
operates in ES cells. The research team, including Yoichi Shinkai from Kyoto University,
found the ESET protein localizes near genomic regions of DNA that contained ERV
sequences in ES cells. In ES cells lacking ESET, the researchers found that transcription of
three different ERVs was induced, and this was independent of DNA methylation. Because
they did not see this same activation of ERVs in more mature fibroblasts lacking ESET, they
concluded that ESET was only able to inhibit ERV expression in immature cells. The findings
suggest that ESET silences ERVs during early development when DNA methylation is
dynamically reprogrammed to maintain the integrity of the genome.
RESEARCH HIGHLIGHT COLLECTION
Matsui, T. et al. Proviral silencing in embryonic stem cells requires the histone
methyltransferase ESET. Nature , .
Published in Proceedings of the National Academy of Sciences USA
Amplifying the silence
gene silencing in plants is affected by the length of RNA molecules
A plants development and defense against pathogen attack depends on its ability to silence
certain genes. Now, a research team from Taiwan and the UK has confirmed that the power
of gene silencing activity in plants is increased by microRNA molecules that are one
nucleotide longer than the norm of nucleotides. MicroRNAs are small molecules that interfere
with gene expression by instigating RNA cleavage. MicroRNAs can trigger the breakup of
target messenger RNA mRNA into secondary, small interfering RNA molecules siRNAs,
which further obstructs gene expression. The teams research clarifies why most
microRNAmRNA interactions fail to produce secondary siRNAs. Led by ShuHsing Wu, the
researchers found that both natural and engineered microRNA molecules containing
nucleotides can direct cleavage of target mRNA and trigger the formation of secondary
siRNA in the model plant Arabidopsis. They also confirmed experimentally that the length,
not the composition of the nucleotide sequence, is the primary feature of microRNAs that
initiates secondary siRNA production. In the future, the researchers will examine how the
subtle increase in size affects microRNAmRNA interactions during RNA cleavage.
Amplification in gene silencing could benefit scientists working not only to develop
technologies for disease resistance in plants but also to manipulate gene expression in
biotechnological applications.
Chen, H.M. et al. nucleotide RNAs trigger secondary siRNA biogenesis in plants.
Proceedings of the National Academy of Sciences USA , .
CCASA/ zePHyRIS
STRUCTURAL amp MOLECULAR BIOLOGY AIMBN RESEARCH Published in Cancer Cell
Stopping the cancer spreading
The identification of a new molecular player advances the quest to stop cancer in its tracks
A team led by Qi Zeng of the ASTAR Institute of Molecular and Cell Biology, Singapore, has
discovered that a protein called PCPB helps protect
Published in Cell Research
Binding and gagging tumors
A newly identified molecular mechanism prevents cancerous cells from breaking off from
tumors and spreading
Researchers in China have found that a transcription factor called FOXA prevents tumors
from spreading by inhibiting a process called the epithelialtomesenchymal transition EMT.
EMT is characterized by loss of cell adhesion and increased cell movement. It is therefore
critical for cancer progression, as it enables cancerous cells to break off from a tumor, enter
the bloodstream and invade other organs. Jianguo Song and his colleagues from the
Shanghai Institutes of Biological Sciences made the discovery by examining FOXA
expression in several human lung cancer cell lines. They found that reducing FOXA levels
induced EMT and promoted cell migration, whereas overexpressing the protein inhibited
EMT and migration.
Tang, Y., Shu, G., Yuan, X., Jing, N. amp Song, J. FOXA functions as a suppressor of tumor
metastasis by inhibition of epithelialtomesenchymal transition in human lung cancers. Cell
Research ,
Further investigation revealed that FOXA inhibits expression of a protein called slug, which
normally promotes cell migration by reducing the expression of cell adhesion molecules in
lung cancer cells. Others have previously shown that FOXA regulates the spread of
colorectal cancer to the liver. This study now implicates FOXA in lung tumors, and suggests
that it is a possible new drug target for lung cancer treatment. Our study also implies that
cells with high FOXA levels are less malignant than cells with a low level, says Song,
suggesting that FOXA is an important marker for judging the stages of lung cancer.
against metastasis the spread of cancer around the body by suppressing translation of the
metastasisassociated protein PRL phosphatase. Abnormally high levels of PRL phosphatase
found in diverse human tumors are associated with metastasis and poor prognosis. Zeng
and her collaborators analyzed over , human tumor samples and found that that PRL protein
levels were elevated in nearly a quarter of them. PRL protein levels were not directly related
to PRL gene expression, suggesting regulation at the level of messenger RNA mRNA
translation. The researchers identified sequence motifs in the nonproteincoding region of
PRL mRNA that are important for regulating translation efficiency in colon cancer cell lines.
Further experiments revealed that a known RNAbinding protein, PCBP, suppressed PRL
translation by specifically binding to these regulatory motifs, and that low levels of PCBP
were associated with high levels of PRL in primary human cancers. In addition, experiments
with mice showed that PCBP could suppress tumor development by limiting PRL protein
levels and downstream signaling. The researchers hope that the identification of PCBP as a
translational regulator of PRL will eventually lead to new anticancer drugs.
Wang, H. et al. PCBP suppresses the translation of metastasisassociated PRL phosphatase.
Cancer Cell , .
www.natureasia.com/AIMBN
AIMBN RESEARCH STRUCTURAL amp MOLECULAR BIOLOGY Published in Nature
Structural and Molecular Biology
Tying up loose ends
A component of the telomerase complex folds DNA into a conformation that directly
facilitates that enzymes chromosomeprotecting activity
NIH/PADIllANASH AND RIeD
Every time a chromosome is copied for cell division, it ends up slightly shorter due to a quirk
in the replication process. The risk of serious genetic damage from this shortening is
ameliorated by the presence of telomeres caps composed of repetitive DNA sequences that
are maintained at the ends of each chromosome see image by the telomerase enzyme
complex. The singlestranded ends of telomeres are believed to form structures called
Gquadruplexes, but their functional importance was unclear. New work from JinQiu Zhou and
colleagues at the Shanghai Institutes for Biological Sciences in China has now shown that
Gquadruplex formation is critical to telomere maintenance, and establishes an important role
for telomerase subunit Estp in this process. Estp is known to facilitate telomerase recruitment
to telomeres, but Zhous team was surprised to discover that this protein can directly convert
singlestranded yeast telomeric DNA into Gquadruplexes via a magnesiumdependent
mechanism. They subsequently showed that mutations in a magnesiumbinding domain of
Estp essentially cripple telomere growth, bringing yeast cell division to a grinding halt. Zhou
and colleagues hypothesize that Estpmediated quadruplex formation helps position the
telomerase catalytic domain and potentially contributes to its translocation during telomere
extension a mechanism that seems likely to be evolutionarily conserved in higher organisms
as well.
RESEARCH HIGHLIGHT COLLECTION
Zhang, M.L. et al. Yeast telomerase subunit Estp has guanine quadruplexpromoting activity
that is required for telomere elongation. Nature Structural and Molecular Biology , .
Published in Nature Cell Biology
Putting injured cells to sleep
A DNA damage response pathway brings cell division to a halt by eliminating a protein that
maintains chromosomal integrity
Each time a cell divides, chromosome ends shorten owing to a quirk in the DNA replication
process. Proteincapped repetitive sequences called telomeres provide an essential buffer
against degradation of the chromosome ends. Telomeric uncapping causes cell division to
shut down via a process known as senescence, which is mediated at least in part by the
protein p. However, new findings from a team led by Curtis Harris at the US National Cancer
Institute in Bethesda, Maryland have shown that p can also actively trigger this uncapping
process in response to genetic damage. Exposure to DNAdamaging conditions stimulates
production of p. Harris and colleagues found that this upregulation is associated with reduced
levels of TRF, a key telomerebinding protein, in cultured
Fujita, K. et al. Positive feedback between p and TRF during telomeredamage signalling and
cellular senescence. Nature Cell Biology , .
cells. Under these conditions, p also induces the expression of Siah this enzyme, ubiquitin
ligase, selectively marks other proteins for rapid degradation TRF appears to be among its
targets. Premalignant adenoma cells exhibiting passociated senescence also showed
increased Siah and decreased TRF levels relative to healthy cells, indicating that this
regulatory pathway is also active in the human body. The researchers conclude that this
represents a potentially important feedback loop that drives rapid telomere uncapping in
damaged cells, shunting them towards senescence as a protective measure against
uncontrolled cancerous growth.
STRUCTURAL amp MOLECULAR BIOLOGY AIMBN RESEARCH Published in Virus
Research
Compatible partners
Optimal enzyme activity for viral replication of a pandemic swineflu virus hinges on the
enzymes subunit origins
CDC/gOlDSMITH AND ROllIN
To replicate successfully, influenza viruses pictured require the activity of an RNA
polymerase that consists of three subunits PB, PB and PA.
Published in Science
All mixed up
Genetic reassortment of influenza strains within pigs could yield more virulent or
vaccineresistant derivatives of the pandemiccausing strain
The rapid emergence of the HN/ swine flu pandemic triggered global panic in , raising fears
of a potential public health crisis on the scale of the devastating outbreak. The HN/ virus
contains gene variants derived from a number of other influenza strains, and it remains an
open question whether this strain might stably establish itself in pig populations to an extent
that enables further interviral recombination. To address this question, Yi Guan and Malik
Peiris at the University of Hong Kong characterized influenza variants isolated from swine at
a Hong Kong abattoir in late and early . In January , they isolated one novel HN variant
termed
Vijaykrishna, D. et al. Reassortment of pandemic HN/ influenza A virus in swine. Science , .
swine/HK//, which appears to be an amalgam of genes from three other strains. Importantly,
the gene encoding one major viral surface protein, neuraminidase, appears to have
originated from HN/, while the other, hemagglutinin, is derived from a different strain as a
result, the HN/ vaccine is ineffective at blocking swine/HK// infection. Based on these
findings, Guan and Peiris caution that further viral genome reorganization could give rise to a
more virulent influenza strain in the near future, and advocate more aggressive swine
surveillance to identify and intercept these variants as they emerge.
Now, researchers at the National Center for Genetic Engineering and Biotechnology in
Thailand have found that mixing subunits from different influenza viral strains reduces the
activity of this enzyme and renders it less able to replicate virus in cell culture experiments.
The PA protein of the pandemic swineorigin influenza virus SOIV of contains the amino acid
serine at position . Older swine flu strains and human and avian flu viruses, however, contain
the amino acid glycine at this position. When the researchers switched this serine in SOIV
PA to glycine, the function of the SOIV RNA polymerase was reduced. They also found that
switching the glycine at position in an older swine flu strain to a serine enhanced the activity
of an RNA polymerase that was also composed of PB and PB from the SOIV strain. The
findings suggest to the researchers that SIOV is unlikely to mix, or reassort, with other strains
to create new viral strains. The results also provide insight into how the enzyme subunits
work together to drive RNA polymerase activity. Further, targeting amino acid may be
efficacious in fighting viral growth.
Wanitchang, A., Jengarn, J. amp Jongkaewwattana, A. The N terminus of PA polymerase of
swineorigin influenza virus HN determines its compatibility with PB and PB subunits through
a strainspecific amino acid serine . Virus Research , .
www.natureasia.com/AIMBN
AIMBN RESEARCH STRUCTURAL amp MOLECULAR BIOLOGY Published in Human
Molecular Genetics
Cellular stress protection
Insights into the physiological function of a membrane transport protein may explain the
mechanism underpinning a human vascular disease
A research team based in Taiwan has revealed the mechanism by which mutations in a
membranebound protein called glucose transporter GLUT, which actually transports solutes,
can lead to the vascular disease called arterial tortuosity syndrome ATS. Lax skin and joints,
as well as twisting of the major arteries, which can cause aneurysms and strokes, are
hallmarks of patients with ATS. Building on earlier work by other researchers who identified
GLUT deficiency as the cause of ATS, the research team, led by YanTsong Chen of Taiwans
Academia Sinica, showed that GLUT is expressed in the mitochondria of smooth muscle
cells of mice. The team also showed that, in contrast to similar forms of this protein that
transport glucose, GLUT actually delivers dehydroascorbic acid DHA the oxidized form of
vitamin C. Once in the mitochondria, DHA protects the cell from the ravages of reactive
oxygen species, a common byproduct of mitochondrial function. The researchers conclude
that when mutations stop GLUT from functioning, ATS results from excessive oxidative
stress in smooth muscle cells, which leads to distorted and misshapen arteries. They also
note that their findings underline the importance of a derivative of vitamin C and reactive
oxygen species in degenerative diseases.
dehydroascorbic acid import and protects cells against oxidative stress mechanistic insight
into arterial tortuosity syndrome. Human Molecular Genetics , .
Published in Proceedings of the National Academy of Sciences USA
Tracking transcriptional traffic
Detailed maps capture the starts and stops of the machinery at the core of gene expression
Lee, Y.C., Huang, H.Y., Chang, C.J., Cheng, C.H. amp Chen, Y.T. Mitochondrial GLUT
facilitates RESEARCH HIGHLIGHT COLLECTION
Although the RNA polymerase complex Pol II hypothetically travels in a straight line as it
transcribes gene sequences into messenger RNA, its actual journey is less straightforward.
Transcription proceeds in fits and starts, and is coupled to other complex processes such as
splicing, in which nonproteincoding intron sequences are neatly excised from the rough draft
RNA transcript. To chart the dynamic behavior of Pol II during transcription, a team led by
Tatsuhiko Kodama and Sigeo Ihara of the University of Tokyo, Japan, and Peter Cook at the
University of Oxford, UK, performed an elaborate series of timecourse experiments to track
RNA production from five large genes. All five are activated by a common factor, tumor
Wada, Y. et al. A wave of nascent transcription on activated human genes. Proceedings of
the National Academy of Sciences USA , .
necrosis factor, which enabled the researchers to turn on and track each gene
simultaneously. They observed that each rough transcript is produced in a fastmoving initial
wave during this period, additional waves start but do not progress, and latearriving Pol II
complexes produce only short, abortive transcripts. Pol II doesnt appear to brake for splicing,
with introns trimmed almost as quickly as they can be transcribed. However, the complex
does stall at sites where DNAinteracting proteins RAD and CTCF are bound. The authors
speculate that these may act as physical roadblocks to Pol IImediated elongation.
ISTOCKPHOTO/KATIV
STRUCTURAL amp MOLECULAR BIOLOGY AIMBN RESEARCH Published in Genes amp
Development
unraveling the roles of multitasking enzymes
ISTOCKPHOTO/DRASCHWARTz
Studies of genetically engineered mice are uncovering subtle molecular mechanisms
responsible for fine tuning protein expression in mammalian cells
Over recent years, molecular biologists have increasingly recognized the functional
importance of small RNA molecules called microRNAs that inhibit proteincoding messenger
RNAs. A microRNA biosynthesis pathway known as the canonical pathway that has been
described in fruit flies and nematodes requires two RNAprocessing enzymes Drosha and
Dicer. A team led by Mark Chong of the Walter and Eliza Hall Institute of Medical Research
in Australia has now determined the roles of these enzymes in mice. Chong and his
collaborators confirmed that both enzymes are required for canonical microRNA biosynthesis
in mice. However, they found different gene expression and protein profiles of mice deficient
in Drosha or Dicer, suggesting their separate involvement in other processes. Further
experiments revealed that Drosha directly cleaves many messenger RNAs in earlystage
thymocytes, which eventually mature into the functional T cells of the immune system. The
researchers also identified a number of unusual microRNAs generated by a Dicerdependent
but Droshaindependent mechanism, demonstrating that Dicer is involved in generating
different classes of microRNA in mammalian cells. However, these microRNAs were mostly
distinct from mirtrons, a previously identified class of microRNAs in fruit flies and nematodes
that are generated by messenger RNA splicing machinery. They hope now to elucidate the
complex mechanistic details of microRNA pathways in mammals.
Chong, M. M. W. et al. Canonical and alternate functions of the microRNA biogenesis
machinery. Genes amp Development , .
Published in The Plant Cell
Working with a silent partner
Proper functioning of a key plant enzyme depends on collaboration between a biologically
active catalytic subunit and a passive regulator subunit
Early stages in the production of the diverse family of biologically active molecules known as
terpenes depend on the coordinated activity of various prenyltransferase PTS enzymes. The
best characterized of these operate as homomeric complexes containing two copies of the
same protein subunit. However, new work from a team led by TaoHsin Chang and Andrew
H.J. Wang at the Academia Sinica in Taiwan has now revealed details of the workings of a
more engimatic heteromeric PTS, CGPP synthase GPPS, from the mint plant Mentha
piperita Mp. Mp GPPS contains two copies each of a large subunit LSU and a small subunit
SSU. Although LSU closely resembles the subunits of homomeric PTS complexes, Chang
Chang, T.H. et al. Structure of a heterotetrameric geranyl pyrophosphate synthase from mint
Mentha piperita reveals intersubunit regulation. The Plant Cell , .
and Wang found that it lacks catalytic activity on its own, and depends on interactions with
SSU to achieve a stable, fully functional structure. Mp GPPS can synthesize two distinct
terpene precursors of varying length, but synthesizes only the shorter of the two in vivo.
Based on their crystal structure data the first ever obtained for a heteromeric PTS as well as
a series of functional experiments, the researchers formulated a twochamber model in which
the noncatalytic SSU acts as a regulator that physically constrains the length of molecules
synthesized by the catalytic LSU.
www.natureasia.com/AIMBN
AIMBN RESEARCH STRUCTURAL amp MOLECULAR BIOLOGY Published in Nature
Materials
Spotlighting single DnA molecules
Synthesis of lightactive nanostructures paves the way for detection of single DNA molecules
A new approach for synthesizing lightactive nanostructured probes to detect single DNA
molecules using the technique called surfaceenhanced Raman scattering SERS has been
developed in Korea. Singlemolecule detection is expected to shed light on the behavior of
biomolecules in living cells and clinical samples. Because SERSbased singlemolecule
detection hinges on the probes nanoenvironment, reproducible synthesis of welldefined
nanostructures is essential. The researchers, led by JwaMin Nam of Seoul National
University and Yung Doug Suh of Korea Research Institute of Chemical Technology,
combined DNA hybridization and magnetic nanoparticle separation to generate
dumbbellshaped goldsilver nanostructures with a lightactive dye at the center pictured in high
yield. First, the researchers synthesized two sets of DNAgold nanoparticle conjugates and
tethered the dye to one of the DNA strands. After magnetic separation, they bridged the
nanoparticles into dumbbells using a complementary singlestranded DNA. Finally, they
deposited silver on the gold, creating nanometer shells around the gold nanoparticles. By
controlling the silver deposition, the researchers could tune the nanometersize gap between
the dye and metal nanoparticles. This strategy significantly enhanced the singlemolecule
sensitivity of the nanostructures, allowing reproducible singleDNA detection. The team is
currently investigating the potential implementation of their
RESEARCH HIGHLIGHT COLLECTION
nanostructures in fast, quantitative and multiplexed assays to detect infections.
Lim, D.K., Jeon, K.S., Kim, H. M., Nam, J.M. amp Suh, Y. D. Nanogapengineerable
Ramanactive nanodumbbells for singlemolecule detection. Nature Materials , .
Published in Proceedings of the National Academy of Sciences USA
Making the right connections
An unusual partnership between proteins appears to underlie healthy development of the
inner ear
Harmonin and Sans are among the various proteins associated with Usher syndrome, a
hereditary disorder characterized by congenital impairments in hearing and balance and a
predisposition to blindness. These proteins form a complex that contributes directly to hair
cell development within the ear. Now Mingjie Zhangs team at the Hong Kong University of
Science and Technology has revealed important details about the basis for this interaction.
Harmonin features multiple evolutionarily conserved PDZ domains, which mediate
proteinprotein interactions. Zhang and coworkers observed that one PDZ domain combines
with a nearby helical domain to form a Sansrecognizing supramodule. Although PDZ
domains have been extensively studied, they were surprised to note that, in addition to the
canonical PDZ binding behavior, the harmonin PDZ also associates with the SAM domain of
Sans via a previously unidentified interaction mechanism. Many Usher syndrome patients
express variants of these two proteins with mutations that directly affect PDZ or SAM. Cell
culture experiments confirmed that these alterations can severely impair Sans and harmonin
colocalization and complex formation. The authors conclude that their findings could not only
help illuminate the molecular foundations of this debilitating disorder, but may also guide
discovery of previously overlooked binding partners for some other PDZcontaining proteins in
the human genome.
Yan, J., Pan, L., Chen, X., Wu, L. amp Zhang, M. The structure of the harmonin/sans
complex reveals an unexpected interaction mode of the two Usher syndrome proteins.
Proceedings of the National Academy of Sciences USA , .
STRUCTURAL amp MOLECULAR BIOLOGY AIMBN RESEARCH Published in Proceedings
of the National Academy of Sciences USA
Bacterial chaperonin a trick of the tail
Discovery of a way to disrupt the structure of a key protein of the potentially pathogenic
bacterium Heliobacter pylori could lead to new therapeutics
ISTOCKPHOTO/SgAMe
Shujian Cun and Hongzhe Sun of Hong Kong University may have discovered an Achilles
heel of Heliobacter
Founded in , the AsiaPacific International Molecular Biology Network AIMBN is an
organization dedicated to bringing together leading researchers and institutions in Asia and
the Pacific Rim to promote the development of scientific and technical excellence in
molecular biology and genetic engineering research in the region. The AIMBN serves the
scientific community through a range of activities including its fellowship program, technical
workshops as well as regular scientific conferences. Further information about the work of
the AIMBN including details of how to become a member can be found at www.aimbn.org
pylori pictured, which can cause peptic ulcers and stomach cancer. In most organisms, the
chaperonin proteins GroEL and GroES together protect cells from heat shock, which causes
protein unfolding. GroES forms the lid of a molecular container composed of GroEL, inside
which encapsulated proteins rapidly refold. Because GroES dysfunction is lethal, natural
selection should tolerate few changes in the sequence of aminoacid building blocks. Cun and
Sun studied HspA, a form of GroES found in H. pylori that, uniquely, has the amino acids
histidine and cysteine at particular positions of its tail. Biochemical experiments showed that
these amino acids form an oxidationsensitive zincbinding site. On infection, the hosts
immune system releases zinc and reactive oxygen free radicals that damage bacteria.
Supporting the idea that the unusual properties of HspA help counter these defenses, the
researchers found that bismuth antiulcer drugs displace zinc from the metalbinding site,
disrupting the proteins structure. Comparison with GroES proteins from other organisms
suggested that the zincbinding site of HspA may have evolved as a result of negative
selection against variation at neighboring sites. This discovery may lead to new drugs that
can retard the emergence of drug resistance.
Cun, S. amp Sun, H. A zincbinding site by negative selection induces metallodrug
susceptibility in an essential chaperonin. Proceedings of the National Academy of Sciences
USA , .
www.natureasia.com/AIMBN
ISTOCKPHOTO/HeNRIK JONSSON
Immunology amp Therapeutics
IMMUNOLOGY amp THERAPEUTICS AIMBN RESEARCH Published in The Lancet
Taking a shot at pandemic flu
A largescale clinical trial reveals the safest and most effective vaccine formulation to provide
immunity to the pandemic influenza A HN virus
ISTOCKPHOTO/MIKeKIeV
Seasonal influenza vaccines help control the spread of specific influenza viruses by
preparing the body to mount an immune response upon exposure to those viruses. After the
pandemic
Published in The EMBO Journal
last line of defense
Cellular enzymes keep influenza from running rampant by putting the brakes on viral
replication
For a virus, getting inside a cell is only half the job successful infection also requires the
production of new viral particles, a process that is heavily dependent on factors found within
the environment of the host cell. For example, recent studies have indicated that cellular
enzymes may regulate the efficiency of influenza A replication by selectively tagging viral
proteins with individual molecules of the small protein ubiquitin. New findings from Michael
Lai and colleagues at Academia Sinica in Taiwan have now confirmed the importance of this
modification. Based on a series of screening experiments, the researchers were able to
determine that USP, a ubiquitinremoving enzyme, acts as an effective inhibitor of virus
production in cells infected by influenza A.
Liao, T.L., Wu, C.Y., Su, W.C., Jeng, K.S. amp Lai, M. M. C. Ubiquitination and
deubiquitination of NP protein regulates influenza A virus RNA replication. The EMBO
Journal , .
Early in infection, the influenza genome is transcribed to produce proteins that include viral
nucleoprotein and the components of the RNAdependent RNA polymerase complex, which
subsequently combine to drive replication of the viral genome. Lai and colleagues
demonstrated that nucleoprotein is a target of ubiquitination, and that this modification plays
an important role in stabilizing its interaction with viral RNA. They hypothesize that by
removing this individual ubiquitin molecule, USP prevents the replication complex from
forming and thereby undermines the production of new virus particles.
originating in Mexico in , there is a pressing need to develop safe and effective vaccines
against the HN influenza viruses originating in swine. Now, researchers from China report a
placebocontrolled clinical trial on an HN vaccine that has been produced in China, and tested
in over , individuals. The researchers administered eight different vaccine formulations to
determine which was the safest and most effective. For example, different antigen
concentrations were included in the vaccine to ascertain how little antigen could be used to
still obtain an effective immune response. This is an important question in the event of a
pandemic and the need to vaccinate the population quickly with a limited antigen supply. The
researchers also included formulations with or without aluminium adjuvant, a chemical that
may boost the immune response to the vaccine. Interestingly, the formulations without
adjuvant promoted a higher level of immunity, as assessed by antibody measurements
against a viral antigen. The findings demonstrate the safety and efficacy of this vaccine, and
will guide immunization parameters for patients.
Liang, X.F. et al. Safety and immunogenicity of pandemic influenza A HN vaccines in China a
multicentre, doubleblind, randomised, placebocontrolled trial. The Lancet , .
www.natureasia.com/AIMBN
AIMBN RESEARCH IMMUNOLOGY amp THERAPEUTICS Published in Proceedings of the
National Academy of Sciences USA
Curtailing cholera
longterm immunity against cholera from a ricebased, oral vaccine takes a step forward
A team led by Hiroshi Kiyono from the University of Tokyo, Japan, has developed a
ricebased oral vaccine MucoRiceCTB that effectively induces neutralizing antibodies against
the acute, and often fatal, disease cholera. MucoRiceCTB contains a component of cholera
toxin CT produced by Vibrio cholerae, the bacterium responsible for cholera. The
researchers previously showed that MucoRiceCTB protects against CTinduced diarrhea in
mice and also induces CTneutralizing antibodies in monkeys. They have now shown that
intestinal secretion of specific CTneutralizing IgA antibodies or secretory IgA SIgA following
oral immunization with MucoRiceCTB is critical for protection against CTinduced diarrhea in
mice. Immunized mice were protected up to six months after primary immunization and a
further four months by a single booster immunization. MucoRiceCTB also protected mice
against enterotoxigenic Escherichia coli ETEC, another major cause of human diarrheal
disease, because CTneutralizing antibodies also recognize the heatlabile toxin of ETEC.
MucoRiceCTB remained effective even after storage for three years at room temperature,
suggesting that it could be distributed cheaply without refrigeration. Moreover, oral
administration of the vaccine eliminates the need for needles and syringes. The findings
confirmed the potential of MucoRiceCTB as a newgeneration oral vaccine. Clinical trials are
now needed to show whether it is effective in preventing cholera and ETECinduced
gastroenteritis in humans.
RESEARCH HIGHLIGHT COLLECTION
Published in Proceedings of the National Academy of Sciences USA
Slow and steady
A single injection of a large insulin aggregate into diabetic animals can allow for longterm
regulation of their blood glucose levels
A team of scientists from India has found that one injection of a specially formulated insulin
aggregate into diabetic animals can lead to steady release of insulin into the blood for over
days. If the findings can be extended into humans, this insulin aggregate formulation could
revolutionize diabetes treatment by drastically reducing the number of insulin injections that
diabetic patients need to administer. Current treatment calls for multiple daily injections of the
hormone insulin, which is a high burden for patients to endure. The inability of diabetes
patients to regulate their blood sugar levels can lead to complications such as nerve
damage, kidney failure and cataracts.
Gupta, S., Chattopadhyay, T., Singh, M. P. amp Surolia, S. Supramolecular insulin assembly
II for a sustained treatment of type diabetes mellitus. Proceedings of the National Academy
of Sciences USA , .
Insulin is responsible for pulling glucose out of the blood and into all of the bodys cells. The
insulin that is currently used for diabetes treatment is made up of single insulin peptides in
solution. However, insulin peptides can aggregate into larger structures. The researchers
thought that these larger aggregates could allow for slow and steady release of insulin
peptides. When they injected the insulin aggregate into diabetic animals, this allowed for
longterm control of blood glucose levels, and a decrease in the incidence of cataracts and
other complications in the animals.
ISTOCKPHOTO/yOuNgVeT
Tokuhara, D. et al. Secretory IgAmediated protection against V. cholerae and heatlabile
enterotoxinproducing enterotoxigenic Escherichia coli by ricebased vaccine. Proceedings of
the National Academy of Sciences USA , .
IMMUNOLOGY amp THERAPEUTICS AIMBN RESEARCH Published in Proceedings of the
National Academy of Sciences USA
Fighting the flu virus
A campaign of very highthroughput screening for antiinfluenza compounds could lead to new
treatments for flu
Scientists in Taiwan have screened over . million chemicals to identify unique compounds
that inhibit the replication of the influenza virus pictured.
Published in Nature Biotechnology
Flu fighter
A drug that induces clumping of an influenza virus protein enhances the survival of mice that
have been exposed to the flu
A team of researchers from Hong Kong and Canada may have found a new treatment to
combat influenza infections. The findings are timely because particular influenza virus strains
that infect humans are now resistant to existing antiviral drugs. Led by KwokYung Yuen of
the University of Hong Kong, the team revealed a molecule called nucleozin that causes
aggregation of influenza virus nucleoprotein and reduces viral replication in cell culture
experiments. The researchers identified nucleozin as a suitable drug candidate by screening
a large chemical library of over , compounds. They found that nucleozin could protect a
kidney cell line from viral toxicity. Nucleozin induced nucleoprotein aggregation in lung
epithelial cells,
Kao, R. Y. et al. Identification of influenza A nucleoprotein as an antiviral target. Nature
Biotechnology , .
which prevented nucleoprotein from moving into the nucleus and playing a role in replication
of the virus. Nucleozin seemed to act directly on viral nucleoprotein alone, because of its
nuclearexclusion of purified nucleoprotein protein, and because a single point mutation in
nucleoprotein reduced the efficacy of nucleozin. Yuen and colleagues showed that nucleozin
also had efficacy in animals it was able to enhance the survival of mice that were exposed to
the influenza virus. If nucleozin has similar effects in humans, it may expand the current
treatments for influenza infection.
A few established pharmaceuticals that target the influenza enzyme neuraminidase are
effective at inhibiting viral replication once an individual is infected. However, the rapid
evolution of drugresistant influenza strains reduced the effectiveness of these drugs,
highlighting the need to develop new antiinfluenza agents against different viral targets.
Using very highthroughput screening methods, the researchers identified several new
classes of antiinfluenza compound, including inhibitors of the viral RNA polymerase, which is
essential for viral replication. One of these compounds, FA, is chemically similar to a recently
reported influenza inhibitor called Nucleozin. They found that FA targets the polymerase
subunit nucleoprotein, whereas a second chemical, called compound , targets a different
polymerase subunit called PB. Further experiments revealed that FA potently inhibits the
replication of several virulent influenza strains in cultured cells, and that it protects against
lethal influenza infection in mice. The researchers used specific mutations in nucleoprotein
and PB to confirm the selective targeting of compounds FA and . They believe that these
new antiinfluenza compounds against different influenza RNA polymerase subunits could
lead to new antiinfluenza drugs.
CDC/MuRPHy
Su, C.Y. et al. Highthroughput identification of compounds targeting influenza
RNAdependent RNA polymerase activity. Proceedings of the National Academy of Sciences
USA , .
www.natureasia.com/AIMBN
AIMBN RESEARCH IMMUNOLOGY amp THERAPEUTICS Published in Leukemia
The good without the bad
Stem cell transplants that fight leukemia could cause fewer side effects if patients are on the
drug imatinib
Some blood cancers can be cured with stem cell transplantation, but this can lead to
graftversushost disease GVHD a side effect where the grafted cells mount an immune
response against host organs, causing symptoms such as diarrhea, dry eyes and mouth, and
skin rashes. Now, researchers collaborating across multiple institutions, hospitals and
medical centers across Japan have discovered that the drug called imatinib could be used to
prevent the onset of GVHD. Imatinib can be used to treat GVHD after onset, and is also used
to prevent cancer recurrence. It inhibits signaling pathways that drive the pathological
changes in organs that characterize GVHD, such as the formation of fibrous connective
tissue where it does not belong. The researchers compared the medical records of patients
who had been treated with imatinib after receiving their stem cell transplant, but before the
development of GVHD, with those not treated with imatinib. They found that the
imatinibtreated patients had decreased incidence and severity of GVHD, particularly of the
gastrointestinal tractrelated symptoms such as diarrhea and dry mouth. Because the
researchers based their analysis on existing medical records, they suggest that a clinical trial
be initiated in leukemia patients after stem cell transplantation to test whether or not the
beneficial effects of imatinib stand true in a large population.
Nakasone, H. et al. Prophylactic impact of imatinib administration after allogeneic stem cell
transplantation on the incidence of chronic graft versus host disease in patients with
Philadelphia chromosomepositive leukemia. Leukemia , .
Published in Science
Poisoning the well of cancer
Biochemical and biophysical analyses explain the ability of arsenic to promote the remission
of leukemia
Chromosomal abnormalities, such as those that stem from ionizing radiation or exposure to
chemical mutagens, can lead to a fusion of genes that results in the expression of a novel,
cancercausing protein. This often occurs in leukemias, including acute promyelocytic
leukemia APL. Therapeutically targeting these unique fusion proteins is of high interest as
they represent a way to specifically target cancer cells without harming genetically normal,
healthy cells. The drug arsenic trioxide has already proved effective in inducing durable
remission of APL. Zhu Chen and his colleagues in Shanghai and elsewhere in China and
France have now revealed the molecular mechanism that underlies this therapeutic effect of
arsenic.
Zhang, X.W. et al. Arsenic trioxide controls the fate of the PMLRAR oncoprotein by directly
binding PML. Science , .
Using biochemical, genetic and biophysical techniques the team showed that arsenic binds
to the cysteine residues of one portion of the fusion protein that causes APL. This binding
induces a conformational change in the protein such that it forms aggregates, which
increases its recognition by the components of the cellular machinery that lead to protein
degradation. Reduction in the levels of the cancerpromoting fusion protein explains the ability
of arsenic to promote remission of APL. With the molecular mechanism now identified,
further refinement of arsenic therapy can now be developed.
RESEARCH HIGHLIGHT COLLECTION
ISTOCKPHOTO/THelINKe
IMMUNOLOGY amp THERAPEUTICS AIMBN RESEARCH Published in Proceedings of the
National Academy of Sciences USA
Collaborating with the enemy
An inflammatory signaling protein switches off essential immune surveillance systems that
help keep tumor growth in check
ISTOCKPHOTO/eRAXION
Cellular signaling factor interleukin IL induces an inflammatory response that is believed to
be conducive to accelerated tumor growth. IL
Published in Nature Immunology
Dialing up diabetes
Discovery of a mechanism that triggers inflammation in patients with type diabetes could lead
to a new type of treatment
An international team of researchers from Ireland, the US and Japan has identified the
protein islet amyloid polypeptide IAPP, which is found in abnormal clumps in the pancreas of
diabetic patients, as the cause of an increase of a regulator of the immune system that plays
an important role in inducing diabetes. The regulator, proinflammatory cytokine interleukin IL,
increased when the team stimulated pancreatic immune cells with IAPP. The team found that
mice that were expressing high levels of IAPP and on a highfat diet a significant risk factor
for the development of diabetes in humans also exhibited elevated levels of IL. The
researchers showed that the clumps of IAPP are engulfed by
Masters, S. L. et al. Activation of the NLRP inflammasome by islet amyloid polypeptide
provides a mechanism for enhanced IL in type diabetes. Nature Immunology , .
the immune cells of the pancreas. This led to activation of a protein complex called the
inflammasome, which was already known to be involved in the generation of IL. In cells
lacking portions of the inflammasome complex, they found that IAPP was unable to alter IL
protein levels. Interestingly, a drug currently used to treat diabetes also inhibited IL
production that was induced by IAPP in the immune cells. The research team argues that
reducing IAPPinduced activation of the inflammasome may be a new way to treat diabetes.
also drives the proliferation of a specific subset of helper T cells Th that secrete another
proinflammatory factor, interleukinA ILA, although it remains controversial whether ILA is also
involved in cancer progression. A research team led by Mark Smyth at the Peter MacCallum
Cancer Centre in Australia has helped to clarify this situation, using a variety of mouse tumor
models to characterize the growthpromoting or inhibitory effects of these two interleukins. In
virtually every case examined, production of IL was directly associated with tumor growth
and metastatic spread, and even undermined the effectiveness of treatment strategies
known to reduce formation of lung metastases. In comparison, the researchers observed no
significant contribution from ILA to ILmediated acceleration of progression in any of these
cancer models. The researchers note that IL appears to act by thwarting the activation of
natural killer cells, which aggressively target cancer cells for destruction, although the
detailed mechanism of this immunosuppression remains unclear. Nevertheless, Smyth and
colleagues hypothesize that antibodies or other drugs that selectively target IL have the
potential to boost the effectiveness of existing cancer therapeutic strategies.
Teng, M. W. L. et al. IL suppresses innate immune response independently of ILA during
carcinogenesis and metastasis. Proceedings of the National Academy of the Sciences USA ,
.
www.natureasia.com/AIMBN
AIMBN RESEARCH IMMUNOLOGY amp THERAPEUTICS Published in Nature Cell Biology
unmasking bacterial saboteurs
A bacterial protein helps eliminate a key component of the bodys defense mechanisms
against infection
Bacteria produce molecules that set off immune system alarms, but many have also
developed strategies that enable them to directly counter the bodys defensive response by
blocking immune signaling cascades. A team led by University of Tokyo researcher Chihiro
Sasakawa has now revealed how one of these factors, the protein IpaH. in the Shigella
bacterium pictured, achieves its sabotage of the host inflammatory response. IpaH. acts as
an E ubiquitin ligase, an enzyme that marks other proteins for rapid destruction by tagging
them with ubiquitin molecules, although its specific targets have remained a mystery.
Sasakawas team found that this protein inhibits the activity of NFB, a transcription factor that
activates numerous genes involved in triggering inflammation. Screening experiments
subsequently confirmed that IpaH. binds to NEMO, an upstream activator of NFB, and ABIN,
a protein that normally inhibits this activation. Interestingly, ABIN appears to directly facilitate
the action of IpaH., enhancing binding to and subsequent ubiquitination of NEMO. Mice
infected with Shigella lacking functional IpaH. exhibited more protracted inflammatory
responses and reduced numbers of bacteria in their lung tissue. The authors conclude that
the accelerated degradation of NEMO induced by this effector keeps the inflammatory
response in check and thereby clears the way for infection.
RESEARCH HIGHLIGHT COLLECTION
Ashida, H. et al. A bacterial E ubiquitin ligase IpaH. targets NEMO/IKK to dampen the host
NFBmediated inflammatory response. Nature Cell Biology , .
Published in Proceedings of the National Academy of Sciences USA
Pathways of presentation
Specialized subsets of immune cells use separate cellular pathways to display antigen on
their cell surface
When fighting infection, T cell response is driven by antigens presented on the surface of
immune cells called dendritic cells DCs. Typically, before being presented at the cell surface,
DCs must degrade the antigen and load the processed version of it onto specialized
molecules. Now, a team of researchers from Australia and France report different
mechanisms by which different kinds of DCs in the spleen present antigens. When the
researchers obtained DCs from the spleen of animals that had abdominal inflammation, they
found that these inflammatory DCs use the mannose receptor protein to send antigen to a
cellular compartment called the endosome. There, the inflammatory DCs use an enzyme
called insulinregulated aminopeptidase IRAP to cleave the antigen and load it onto the
specialized antigen presentation machinery. The researchers observed that inflammatory
DCs lacking the mannose receptor or IRAP exhibited decreased antigen presentation.
However, CD DCs derived from the spleen of healthy animals did not use these proteins to
present antigen. Additional studies are needed to characterize how CD DCs process antigen
for display on their surface. Nevertheless, the findings have important implications for
vaccine development, since targeting antigen to specific types of DCs can elicit a more
efficacious T cell response to antigen.
Segura, E., Albiston, A. L., Wicks, I. P., Chai, S. Y. amp Villadangos, J. A. Different
crosspresentation pathways in steadystate and inflammatory dendritic cells. Proceedings of
the National Academy of Sciences USA , .
CDC
IMMUNOLOGY amp THERAPEUTICS AIMBN RESEARCH Published in Proceedings of the
National Academy of Sciences USA
unlikely allies against infection
Intestinal bacteria help out their hosts by strengthening immune protection against other, less
benevolent microbes
Multitudes of bacteria make themselves a happy home within the mammalian small intestine.
However, these residents are not merely freeloaders, but instead earn their keep by
facilitating host digestion and metabolism, among other functions. New findings from a
research team led by Hiroshi Kiyono of the University of Tokyo, Japan, now offer important
insights into another important function of these gut flora pictured, revealing how the bacteria
residing within clumps of immune cells known as Peyers patches PPs contribute to host
defense against pathogenic microbes. Kiyono and colleagues determined that the interior of
mouse PPs is largely populated by Alcaligenes, a common opportunistic bacterium. Its
presence appears to trigger a highly localized immune response, characterized by elevated
levels of IgA antibodies within the gut, without inducing a strong systemic reaction. These
antibodies appear to directly contribute to stable internalization of Alcaligenes within PPs.
They also found that this bacterium is in turn important to proper development and function of
the mucosal immune system without Alcaligenes, mice generate considerably fewer mature
IgAsecreting cells. This bacterium also resides within primate and human PPs, and the
authors conclude that these and other findings from their study may hint at contributions of
other bacterial species to immune system development at the wholebody level.
Obata, T. et al. Indigenous opportunistic bacteria inhabit mammalian gutassociated lymphoid
tissues and share a mucosal antibodymediated symbiosis. Proceedings of the National
Academy of Sciences USA , .
CDC
Published in Nature
Infectionproofing by the gut
Clarification of the details of the molecular mechanism of the intestinal immune system may
lead to new oral vaccines
An international research team has unraveled the molecular details of a key mechanism of
the largest segment of the immune system, the lining of the gut. The work opens the way to
developing versatile, inexpensive vaccines that are imbibed, rather than injected. In an
investigation that employed the latest techniques of microdissection, microarray analysis,
staining, microscopy and molecular genetics, Hiroshi Ohno and colleagues from the RIKEN
Research Center for Allergy and Immunology, Yokohama, working with biologists from
several Japanese universities and Stanford University in the US, have uncovered a receptor
molecule, glycoprotein GP, on specialized microfold or M cells of the gut lining. M cells are
Hase, K. et al. Uptake through glycoprotein of FimH bacteria by M cells initiates mucosal
immune response. Nature , .
involved in moving antigens from the gut cavity to immune system cells beneath. GP
stimulates this immune response by binding to a protein on the hairlike projections or pili of
bacteria such as Escherichia coli and Salmonella. Ohno and colleagues experimented with
mixing GP with E.coli, and found that it linked to the protein FimH on the type pili of bacteria.
In fact, GP binds only to bacteria that carry FimH, and not to those without. The researchers
found the immune process was severely hampered in Salmonella lacking FimH and in mice
lacking GP.
www.natureasia.com/AIMBN
AIMBN RESEARCH IMMUNOLOGY amp THERAPEUTICS Published in Proceedings of the
National Academy of Sciences USA
When antibiotics backfire
Antibiotic compounds directly initiate a defense mechanism in certain highly pathogenic
bacteria that greatly undermines their effectiveness as drugs
ISTOCKPHOTO/ VISuAlFIelD
Staphylococcal bacteria represent a serious health concern, in part because of their
remarkable capacity to protect themselves. For example, individual Staphylococcus
epidermidis cells can respond to treatment with antibiotics by banding together to form
biofilms that are resistant to both pharmaceuticals and host immune cells. Initiation of biofilm
formation depends on production of polysaccharide intercellular adhesin PIA molecules. New
research from a team led by Andrew Wang at the Academia Sinica in Taiwan has revealed a
mechanism by which commonly used antibiotics actually promote drug resistance by
activating the Ica genes that govern PIA synthesis. The S.epidermidis protein TcaR is a
known regulator of the Ica gene cluster, and the researchers were able to determine how
interacting pairs of TcaR molecules bind to specific DNA sequence elements, physically
obstructing gene expression and thus repressing PIA production. However, TcaR is also
capable of binding to a diverse array of antibiotics, including penicillin, kanamycin and
chloramphenicol. The researchers revealed that these various molecules introduce structural
alterations in TcaR that interfere with its capacity to bind DNA. As a result, these drugs
effectively alleviate Ica repression and actively promote biofilm formation. Wang and
coworkers conclude that the discovery of molecules that target this regulatory pathway could
help thwart staphylococcal drug resistance.
RESEARCH HIGHLIGHT COLLECTION
Chang, Y.M. et al. Structural study of TcaR and its complexes with multiple antibiotics from
Staphylococcus epidermidis. Proceedings of the National Academy of Sciences USA , .
Published in Nature Immunology
Fate director
understanding the development of allergic inflammation advances from the identification of a
crucial protein
Allergic responses can be triggered by the inflammatory cytokine interleukin IL, which is
secreted by a recently identified subset of T cells called TH cells. Now, a team of researchs
from the US and Australia, led by Mark Kaplan from the Indiana University School of
Medicine, has identified that a transcription factor protein called PU. is needed for the
development of these cells. The researchers found that T cells from PU.deficient mice
secreted less IL than T cells from normal mice. When they forced expression of PU. in T cells
in cell culture, they noted an increase in IL expression. PU. seemed to act by binding directly
to the IL gene in the genomic DNA, and inducing the expression of IL. In PU.deficient mice,
the researchers observed less allergic airway inflammation in response to antigen exposure,
and this correlated with less IL expression in their T cells. Alterations in levels of IL also
seemed to affect allergic responses in humans in young children with allergies, the
researchers found increased expression of IL, which may have come from TH cells.
Moreover, blocking PU. expression in human T cells decreased IL production. Blocking
production of PU. and IL may provide therapies to prevent or treat allergic responses, the
team suggests.
Chang, H. et al. The transcription factor PU. is required for the development of ILproducing T
cells and allergic inflammation. Nature Immunology , .
IMMUNOLOGY amp THERAPEUTICS AIMBN RESEARCH Published in Modern Pathology
Immune response linked to early arrival
Chronic inflammation of the placental membranes surrounding the fetus is linked to
spontaneous preterm birth in humans
ISTOCKPHOTO/ANDyl
Babies born prematurely have an increased risk for developing cerebral palsy and other
chronic illnesses. Understanding why preterm birth
Published in Proceedings of the National Academy of Sciences USA
Building a better booster
Stronger protective immune responses from vaccines could now be possible from a
modification made to a modulator of immune cells
Vaccine efficacy can be improved by adding chemicals called adjuvants that boost the
immune system, but finding the right molecule for the job can require iterations of
modification. In phase I clinical trials using the molecule galactosylceramide GalCer to
activate immune cells and modulate the immune response to a foreign antigen, researchers
recorded limited biological activity. Now, a team of researchers from the US and Taiwan has
designed a molecule called DW, a modification of GalCer, which can serve as a powerful
adjuvant in mouse models, and so could be promising in humans. The team found that DW
was more effective than GalCer at inducing inflammatory cytokine secretion from human
immune cells.
Li, X. et al. Design of a potent CDdbinding NKT cell ligand as a vaccine adjuvant.
Proceedings of the National Academy of Sciences USA , .
DW also bound more tightly than GalCer to protein receptors on both mouse and human
immune cells that are critical for modulating immune responses. The immune systems of
mice seemed to react more strongly to malaria and HIV vaccines when DW was
coadministered as the immuneboosting adjuvant than when GalCer was coadministered, and
the mice were better able to fight infection if they had received vaccine with the DW adjuvant.
The researchers contend that DW may be a new and efficacious adjuvant to use in human
vaccine clinical trials in the future.
occurs is the first step toward developing appropriate interventions to prevent it. Now,
researchers in the US and Korea have found that chronic inflammation of the membranes
around the fetus called chronic chorioamnionitis is prevalent in patients who experienced
spontaneous preterm birth. The researchers examined microscopic sections of placental
tissue including the fetal membranes from women who had given birth. They found that the
women who went into labor spontaneously before their due date had a much higher rate of
chronic chorioamnionitis than women who delivered fullterm babies. The team found that
expression of inflammatory chemokines that induce immune cell recruitment was increased
in the fetal membranes in patients with chronic chorioamnionitis. They therefore think that
chronic chorioamnionitis may be caused by inflammatory processes that occur because of a
reaction of the mothers immune system against the fetus. The preterm births that were
associated with chronic chorioamnionitis occurred later in pregnancy than preterm births
linked to acute chorioamnionitis, which is caused by bacterial infections. The research team
therefore suggests that chronic chorioamnionitis may explain nearterm preterm births.
Kim, C. J. et al. The frequency, clinical significance, and pathological features of chronic
chorioamnionitis a lesion associated with spontaneous preterm birth. Modern Pathology , .
www.natureasia.com/AIMBN
AIMBN RESEARCH IMMUNOLOGY amp THERAPEUTICS Published in Nature
Single protein seeks mature partner
Structural analysis reveals details of an important safeguard mechanism for proper immune
system development
Within the mammalian thymus, a sophisticated DNA recombination process ensures the
production of a diverse array of T cell receptor TCR protein complexes. This heterogeneity is
essential, as TCRs play a pivotal role in recognizing potential threats from foreign molecules
within the body. The preTCR, which consists of an chain preT and a successfully recombined
TCR chain, helps drive maturation of TCRexpressing cells. Now, new findings from a team
led by James McCluskey at the University of Melbourne and Jamie Rossjohn at Monash
University, Australia, have revealed how preT molecules selectively associate with mature
chains to move this process forward. Both proteins are membranebound see image, and the
researchers began by collecting structural data for the segments that project from the cell
membrane. They found that when these two molecules are bound together, the recombined
variable region of the chain remains unpaired. Based on the chemical composition of the
exposed regions, one might predict this to be an unstable arrangement. Rossjohn and
McCluskey determined, however, that these complexes actually pairoff in dimers, with a
headtotail arrangement that shields the exposed residues. This mode of interaction can only
occur with mature, processed chains, such that this highly stable arrangement also serves as
a sensor for the production of fully functional TCR components.
RESEARCH HIGHLIGHT COLLECTION Pang, S. S. et al. The structural basis for
autonomous dimerization of the preTcell antigen receptor. Nature , .
Published in Proceedings of the National Academy of Sciences USA
Protective markings
Rapid antiviral response depends on enzymatic modification of a protein that helps activate
the immune system
For many proteins, getting tagged with molecules of ubiquitin is a sentence of death via
enzymatic destruction, while other proteins depend on ubiquitination to successfully execute
their functions in the cell. A recent study from a team led by Kunitada Shimotohno at Japans
Chiba Institute of Technology has added the NEMO protein to this latter list. NEMO is known
to be an important middle man in the innate immune response, which represents the first line
of defense against viral infection, although the details of its involvement have been unclear.
Shimotohno and colleagues demonstrated that NEMO interacts with enzyme TRIM, which
modifies at least five different sites on the protein by appending multiple molecules of
ubiquitin arranged in a highly atypical chain configuration. A number of genes that are
typically activated in response to viral infection showed reduced activity in cells subjected to
TRIM depletion, and these cells also showed an impaired capacity to produce signaling
factors that promote the innate immune response. These various antiviral responses appear
to be directly dependent on TRIMmediated multisite ubiquitination of NEMO. As this pathway
is triggered in response to a broad variety of viruses, the authors suggest that it may prove
worthwhile to develop therapeutic strategies that specifically stimulate TRIM activity.
Ariomoto, K. et al. Polyubiquitin conjugation to NEMO by triparite motif protein TRIM is
critical in antiviral defense. Proceedings of the National Academy of Sciences USA , .
NPg
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