Download Viral virulence genes

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
page
12
page
13
page
14
page
15
page
16
page
17
page
18
page
19
page
20
page
21
page
22
page
23
page
24
page
25
page
26
page
27
page
28
page
29
page
30
page
31
page
32
page
33
page
34
page
35
page
36
page
37
page
38
page
39
Document related concepts

Ebola virus disease wikipedia , lookup

DNA virus wikipedia , lookup

Bacteriophage wikipedia , lookup

Virus wikipedia , lookup

Social history of viruses wikipedia , lookup

Human Endogenous Retrovirus-W wikipedia , lookup

Introduction to viruses wikipedia , lookup

Viral phylodynamics wikipedia , lookup

Plant virus wikipedia , lookup

Virus quantification wikipedia , lookup

History of virology wikipedia , lookup

Negative-sense single-stranded RNA virus wikipedia , lookup

Oncolytic virus wikipedia , lookup

Papillomaviridae wikipedia , lookup

HIV wikipedia , lookup

Endogenous retrovirus wikipedia , lookup

Virology wikipedia , lookup

Transcript 
Viral virulence
Lecture 15 Biology W3310/4310 Virology Spring 2014
Serious illness doesn’t bother me for long because I am too inhospitable a host. —ALBERT SCHWEITZER
Animal models
•
•
Human viruses in animals Animal viruses that resemble human infecNon
Principles of Virology, ASM Press
PVR
PVR-­‐Tg
IFNα/β controls poliovirus tropism
Viral virulence
•
•
•
Capacity of a virus to cause disease in a host Virulent vs avirulent or aQenuated virus Virulence can be quanNtated: -­‐
Mean Nme to death -­‐
Mean Nme to appearance of symptoms -­‐
Measurement of fever, weight loss
-­‐
Measurement of pathological lesions (poliovirus); reducNon in blood CD4+ lymphocytes (HIV-­‐1)
Viral virulence
Principles of Virology, ASM Press
Viral virulence is a rela9ve property
•
Influenced by dose, route of infecNon, species, age, gender, and suscepNbility of host •
•
Cannot compare virulence of different viruses For similar viruses, assays must be the same
Virulence depends on route of inocula9on
Principles of Virology, ASM Press
Viral virulence
•
Major goal of virology is to idenNfy viral and host genes that determine virulence •
Virulence genes usually idenNfied by mutaNon: a virus that causes reduced or no disease in a specified system
Iden9fying virulence genes
Principles of Virology, ASM Press
Viral virulence genes
•
•
•
•
•
•
Viral replicaNon Invasiveness Tropism Modify the host defense mechanisms Enable the virus to spread in the host Intrinsic cell killing effects
Virulence determinants may not encode proteins
•
AQenuated Sabin vaccine strains of poliovirus contain a mutaNon in the 5’-­‐noncoding region that reduces neurovirulence •
DeleNons within the long poly(C) tract in the 5’-­‐
noncoding region of mengovirus reduce virulence in mice
C C 500
A
C
AA •GC
C•
G •A
U •G
490 CG•C C
A A
A (2) C•G
G•C 510
G (1)
G•C
A•U
C•G UC
480
G
G
U
472U (3) UA A
CCAUGG
A
••
••••
•
C•
A
470
AGGUGCC
C
C• G
A
G
U
G
C
U
A
AA •A
530 ACGCG
520
U A
C
Principles of Virology, ASM Press
Poliovirus replica9on in mouse brain
Principles of Virology, ASM Press
Gene products that modify host defense
•
Immune modulators -­‐
-­‐
-­‐
-­‐
•
Apoptosis, autophagy Virokines and viroceptors Complement binding proteins Modifiers of MHC I, II pathways Not required for growth in cell culture
Viral virulence genes
Gammaherpesvirus 68 M3 gene encodes a chemokine receptor
Principles of Virology, ASM Press
Toxic viral proteins
NSP4 nonstructural glycoprotein of rotaviruses: viral enterotoxin
TRIM5α, a cellular virulence factor
•
•
•
Old world monkeys are not infected by HIV-­‐1 Virions enter but encounter a block before RT RestricNon mediated by species-­‐specific protein TRIM5α that acts on the viral capsid
J. Cell Biol. Vol. 199 No. 3 407–412 •
miR-­‐122, liver-­‐specific miRNA required for HCV replicaNon •
AnN-­‐miR-­‐122 reduces HCV yield in chimpanzees
Mechanisms of cell injury by viruses
• CytolyNc viruses: cytopathic effects • Viral inhibiNon of host protein and RNA synthesis, leads to loss of membrane integrity, leakage of enzymes from lysosomes, cytoplasmic degradaNon • SyncyNum formaNon by enveloped viruses (parainfluenza, HIV) • Apoptosis, necrosis, pyroptosis
Immunosuppression
•
Some virus infecNons suppress the immune response globally •
Mechanisms -­‐
-­‐
ReplicaNon in one or more cells of immune system -­‐
Viral proteins acNng as viroceptors or virokines (immune modulators)
PerturbaNon of cytokine homeostasis and intracellular signaling Immunosuppression during measles infec9on
Measles virus immunosuppression
•
DendriNc cells and monocytes are infected, anNgen-­‐
presenNng acNvity compromised •
•
CirculaNng T lymphocytes are decreased by 50% Aberrant cytokine responses: IL-­‐4 and IL-­‐10 increased, skews Th1 to Th2 and reducing macrophage acNvaNon
Examples of immunosuppression
Virus
Measles
Rubella
HIV
Disease
Measles
Cells infected
ManifestaNon
Monocytes, DC Reduced DTH Thymic Enhanced infecNons
epithelial cells
Rubella
Lymphoid cells
AIDS
CD4+ T cells monocytes
Persistent rubella infecNon
OpportunisNc infecNons Neoplasia
Genes that control host suscep9bility to viral disease
•
flv gene of mice determines suscepNbility to flavivirus •
flv encodes 2’-­‐5’-­‐oligo(A) synthetase •
No known role in human infecNons
Human determinants of suscep9bility
•
•
•
•
Ccr5-­‐delta32 mutaNon protects vs HIV-­‐1 infecNon Present in 4-­‐16% of European descent Stem cell therapy cured German AIDS paNent HIV gets the zinc finger: hQp://www.virology.ws/
2014/03/19/hiv-­‐gets-­‐the-­‐zinc-­‐finger/
Principles of Virology, ASM Press
Herpes simplex encephali9s
•
Rare and potenNally fatal CNS infecNon, ~1 case/
250,000/yr •
•
70% mortality if untreated Two peaks of incidence: 6 mo -­‐ 3 yr (primary infecNon) and >50 yr (reacNvaNon from latency)
Principles of Virology, ASM Press
Human determinants of suscep9bility
•
•
GWAS, SNPs MutaNons in TLR3, UNC-­‐93B, TRIF or TRAF3 predispose human carriers to HSV encephaliNs
TWiV 175
Influenza severity and IFITM3
•
•
IFITM3 is an ISG encoding a transmembrane protein •
Humans hospitalized with severe influenza are enriched for a mutaNon in IFITM3 gene
EssenNal for controlling influenza morbidity and mortality in mice IFITMs also inhibit dengue, HCV, Ebola
Virus suscep9bility mapping to MHC
Elite controllers
•
Long-­‐term nonprogressors: low HIV loads without ARV •
•
MulNple traits responsible Associated with specific MHC I alleles (HLA-­‐B57)
Principles of Virology, ASM Press
Viral co-­‐infec9ons: HIV-­‐1 and HSV-­‐2
•
•
HSV-­‐2 enhances HIV infecNon of Langerhans cells •
•
AMP LL-­‐37 enhances HIV-­‐1 infecNon of LCs HSV-­‐2 sNmulates producNon of anNmicrobial pepNdes by epithelial cells LL-­‐37 up-­‐regulates HIV-­‐1 receptors CD4 and CCR5
HSV-­‐2
HIV-­‐1
CD4, CCR5
LL-­‐37
Principles of Virology, ASM Press
Age
•
Very young and very old humans most suscepNble to disease •
Young -­‐ immaturity of immune response; greater freedom from immunopathology -­‐ LCM i.c. adult mice lethal; infant mice survive (T cell response) •
Old -­‐ less elasNc alveoli, weaker respiratory muscles, diminished cough reflex
Influenza, US, 1911-­‐1915
Age excep9ons
•
Poliovirus, mumps virus, measles virus infecNons milder at young age; beQer balance of protecNve and pathogenic immune response at this age? •
1918 influenza pandemic lethal for very young, very old, and unexpectedly for young adults 18-­‐30 yr old
US 1911-­‐1915
US 1918
Perhaps lacked protecNve immunity which would be conferred by previous infecNon with related virus
Principles of Virology, ASM Press
Other determinants
•
Males slightly more suscepNble to viral infecNons than females •
Pregnancy: hepaNNs A, B, E, influenza more lethal, polio more common •
MalnutriNon increases suscepNbility because physical barriers and immune response are compromised -­‐
For this reason, measles is 300 Nmes more lethal in developing countries than Europe, N. America
Other determinants
•
CigareQe smoking increases suscepNbility to respiratory infecNons •
•
Air polluNon increases respiratory disease Stress causes increased suscepNbility
Chest 118:1150 (2000)
Related documents
Viral virulence genes
Viral virulence genes
1 To Catch a Virus John Booss and Marilyn J. August, ASM Press
1 To Catch a Virus John Booss and Marilyn J. August, ASM Press
Viral Marketing
Viral Marketing
W3310-4310_study_que..
W3310-4310_study_que..
VIRAL MARKETING IN THE INTERNET.
VIRAL MARKETING IN THE INTERNET.
Welcome to Ms. Looney`s Biology Class
Welcome to Ms. Looney`s Biology Class
HOW TO INTERPRET YOUR LAB TESTS
HOW TO INTERPRET YOUR LAB TESTS
sales-promotion strategy viral marketing
sales-promotion strategy viral marketing
Chapter 19 Advertising Viral Marketing Activity
Chapter 19 Advertising Viral Marketing Activity
08_virology_frequently_asked_questions
08_virology_frequently_asked_questions
lecture 2
lecture 2
Exam 1 Review Questions
Exam 1 Review Questions
VIROLOGY -Multiplication Cycle
VIROLOGY -Multiplication Cycle
Key Terms: Development Three through Six Term Definition
Key Terms: Development Three through Six Term Definition
Viral and cellular microarray-based studies (virogenomics)
Viral and cellular microarray-based studies (virogenomics)
Yellow Fever Virus Strain: 17D Lysate (1 mg)-PI0810095
Yellow Fever Virus Strain: 17D Lysate (1 mg)-PI0810095
Announcement
Announcement
Document 3922180
Document 3922180
Persistent InfecIons
Persistent InfecIons
Persistent Infections
Persistent Infections
Viral gene therapy
Viral gene therapy
Transcription and RNA processing
Transcription and RNA processing