Download A winding road to pluripotency Shinya Yamanaka CiRA, Kyoto University (Japan)

A winding road to pluripotency
Shinya Yamanaka
CiRA, Kyoto University (Japan)
Gladstone Institutes (USA)
My early days in science
Researches led to iPS cells
Potential of iPS Cells
My early days in science
Unexpected results
Great mentors
PhD Student: Osaka City University
Dr. Katsuyuki Miura
Dr. Miura’s Hypothesis
Platelet activating factor
(PAF)
Blood
pressure
Hypothesis
Thromboxane A2
inhibitor
PAF
Time (min)
What happened
Postdoctoral Fellow: Gladstone Institute
Dr. Tom Innerarity
Dr. Innerarity’s hypothesis
Forced expression of APOBEC1 in liver
lowers plasma cholesterol
Experiment
Liver-specific transgenic mice
Liver cancer
My early days in science
Unexpected results
Great mentors
Researches that led to iPS cells
Liver cancer
NAT1
(Novel APOBEC1 Target No1)
Identified as a candidate gene responsible for
APOBEC1-mediated tumors
（Yamanaka et al., 1997)
Essential for pluripotency of ES cells
（Yamanaka et al., 2000)
Embryonic Stem (ES) cells
Embryos
ES cells
Established in mice in 1981
Properties of ES cells
Immortality
Pluripotency
NAT1
PAD
Post America Depression
Human ES cells
hES cell
Dr. James Thomson, 1998
Regenerative Medicine & ES Cell
Human
ES cells
Dopaminergic Neuron
Parkinson Disease
Neural stem cells
Spinal cord injury
Cardiac cells
Cardiac failure
Pancreatic cells
Diabetics
Hepatic cells
Hepatic failure
Bone cells
Osteoporosis
Bone marrow cells
Leukemia
Muscle cells
Dystrophy
Skin cells
Burn
Became a principle investigator in Nara (Dec., 1999)
Our Research Goal
Somatic cells
ES-like
Stem cells
Moral hurdle of human ES cells
Sir John Gurdon
Somatic cells can be reprogrammed into the embryonic state
Dr. Harold Weintraub
The transcription factor MyoD turns fibroblasts into muscle
Our Research Goal
Somatic cells
Reprogramming
factors
ES-like
Stem cells
Induced Pluripotent Stem (iPS) Cells
4 factors
Oct3/4
Sox2
c-Myc
Klf4
Skin cells
Mouse 2006
ES-like
Cells
Human 2007
In search of reprogramming factors
1. Collection of 24 candidate factors
and others
2. Simple and sensitive assay system
3. Identification of the four factors
iPSC Trio
Yoshimi
Tokuzawa
Kazutoshi
Takahashi
Tomoko
Ichisaka
Potential of iPS cells
Potential of iPS Cells
iPS cells
Patient
Neural cells
b-cells
Cell Therapy
Cardiac cells
Hepatocytes
Disease Model, Drug Screening
Motor Neuron Disease
Degenerated Motor Neuron
Dead
Motor Neuron
Atrophying Muscle
No effective treatment, because no good disease model
Potential of iPS Cells
iPS cells
Patients
Motor neuron
Disease models
Drug screening
Motor Neurons from iPS Cells
Control
Patient
Dr. Haruhisa Inoue, Science Translation al Med 2012
Robotic Drug Screening
Potential of iPS Cells
iPS cells
Patient
Neural cells
Cell Therapy
Cardiac cells
Pancreatic
cells
Hepatocytes
Disease Model, Drug Screening
Ongoing preclinical studies in Japan
iPS cells
Dopaminergic
neuron
Parkinson
Retinal cells
Macular Degeneration
Cardiac cells
Cardiac failure
Neural
Progenitor
Spinal cord injury
Platelet
Platelet deficiency
Three scientific streams that led to iPS cells
1962
Cloning in frog
Gurdon
1997
Cloning in Sheep
Wilmut
2001
ESC fusion
Tada
1987
MyoD
Weintraub
1981
Mouse ESCs
Evans, Martin
2006
iPSCs
1988
LIF
Smith
1998
human ESCs
Thomson
New scientific streams from iPS cells
2006
Mouse
iPSCs
?
Human
iPSC therapy
?
2007
Mouse
iPSC therapy
Jaenisch
2009
Patient iPSCs
Daley
Eggan
2008
In vivo direct
reprogramming
Melton
?
Drug discovery
w/ iPSCs
?
2012
Mouse therapy by
Direct reprogramming
Srivastava
Center for iPS Cell Research
And Application （CiRA), Kyoto
Gladstone Institutes, San Francisco
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