IBS Launches its First Center
in the Field of Basic Medical Sciences
KAIST
Professor Gou Young Koh begins his research in July
as a director of the IBS Center for Vascular
Research. “We
will identify novel key regulators that control the formation, differentiation
and regeneration of blood vessels and lymphatic vessels, and unveil their
mechanisms. Through this research, we will make a significant breakthrough in
treating intractable vascular diseases such as tumors and ischemic heart
diseases.”
Gou
Young Koh, a distinguished professor from the Graduate School of Medical
Science and Engineering, Korea Advanced Institute of Science and Technology
(KAIST), has been selected as a director at the Institute for Basic Science
(IBS). Director Koh, a world-renowned pioneer in the field of Vascular Biology,
begins his research from July 1 as a director of the Center for Vascular
Research.
His
Center is IBS’ first Center launched in the field of Basic Medical Sciences.
Director Koh, who has devoted himself to this field for the past 25 years,
said, “I feel honored and responsible at the same time as a basic medical
scientist. I hope to motivate junior scientists in this field to further
undertake their research.” He went on, “Back in the 1980s, my professor said
that by conducting research in Basic Medical Sciences, we can identify
fundamental causes of diseases and develop new therapeutic strategies. This
will eventually help us treat patients with intractable diseases. He was a huge
inspiration to me, and that is primarily the reason that I decided on pursuing
a career in this field.” Director Koh received the 17th Wunsch Medical Award from
the Korean Academy of Medical Sciences and Boehringer Ingelheim Korea in 2007, almost
a decade after Kyung Woo Cho, his professor at Chonbuk National University
Medical School, received the same award.
Providing a new avenue for
developing tumor therapies
Director
Koh is a highly-established scientist in the field of Vascular Biology. He has been
thrust into the global spotlight for identifying angiogenesis-promoting
proteins and their mechanisms. Director Koh has, in particular, conducted research
and development on COMP-Ang1, an angiogenesis-promoting protein, and shared the
results and materials with researchers in other countries. As a result, his innovative
research has become widely known, and his research group has been recognized
globally for pioneering research in the field of angiogenesis. Currently, Director
Koh is serving as a member of the editorial board of Blood, one of the world’s most prestigious journals in the field of
Hematology. He has recently joined the editorial board of Cancer Research, one of the most distinguished cancer journals in
the world.
Director
Koh has conducted intensive research on tumor angiogenesis. He and his research
group developed a double anti-angiogenic protein (DAPP), which can
simultaneously bind vascular endothelial growth factor A (VEGF-A) and angiopoietin-2
(Ang2), blocking their actions. They also identified that a RhoJ protein is
highly expressed in tumor vessels and plays a critical role in tumor
angiogenesis and vessel integrity.
For
its growth, a tumor stimulates blood vessel formation to obtain sufficient oxygen
and nutrients. These new vessels are used to feed tumor cells with nutrients
and also to spread them around the body. Recently, a vascular targeting therapy
has emerged as a popular anticancer therapeutic option. Unlike traditional
therapies, which directly attack tumor cells, this new therapy is targeting
tumor vessels. It cuts off pathways that deliver nutrients and spread tumor
cells, thus starving the cells to death or inhibiting metastasis. Director Koh
has unveiled the roles of essential proteins in tumor angiogenesis and vessel
integrity, thereby paving the way for developing new therapeutic options. He
received the 2012 Asan Medical Award from the Asan Foundation in recognition of
his achievement in this field.
Director
Koh explained in more detail why blood vessels are important in the therapeutic
treatment. “Each organ undergoes different processes of angiogenesis, and each
blood vessel has different conditions as they are involved in different types
of homeostasis or diseases such as tumors and infections. We can provide a clue
for efficient vascular regeneration, as well as therapeutic strategies for
vascular diseases by conducting research on the generation, differentiation,
integrity and modulation of different blood vessels depending on each organ homeostasis
or disease.”
He
also shows interest in exploring the roles of lymphatic vessels and pericytes. Blood
vessels and lymphatic vessels are so-called water and sewer pipes in the human
body. Director Koh said, “There are approximately 600 lymph nodes in the human
body. Pathogenic viruses and bacteria, immune cells, and tumor cells travel
through lymphatic vessels scattered throughout the body and arrive at lymph nodes,
leading to immune responses.” He added, “I am planning to conduct research
focused on the roles of lymphatic vessels when immune cells interact with
antigens in lymph nodes.”
The
role of pericytes is another topic to be explored. Pericytes wrap around endothelial
cells in capillaries where the exchange of gases, nutrients and waste takes
place. Recent findings indicate that they contribute to the differentiation and
integrity of blood vessels by secreting special kinds of molecular substances.
Conducting extensive research on cardiac
stem cells
The
Center for Vascular Research plans to conduct cardiovascular research as well.
Director Koh explained, “The pathogenic role of blood vessels is critical in
cardiovascular diseases. Even when implanting myocardial stem cells,
angiogenesis must take place simultaneously,” emphasizing that the heart is a
part of blood vessels.
When
he was a research associate at Krannert Institute of Cardiology, Indiana
University, Director Koh carried out a successful trial of cardiac cell implantation
for cardiac regeneration, which was the first time it had been done in the
world. These series of successful implantations of cardiac stem cells and muscle
cells has laid the foundation for myocardial regeneration research using stem
cells for the past 20 years. Myocardial regeneration research using stem cells
is a highly competitive global field. Director Koh said, “In the next 10 years,
I will conduct basic research to generate cardiac stem cells appropriate for
myocardial regeneration and identify their characteristics, and at the same
time I will undertake applied research to develop efficient implantation
methods.”
Director
Koh emphasized that research in Basic Medical Sciences can provide useful insights
for developing therapeutic approaches for sepsis, which is caused by serious
infections with new viruses that pose a threat to national health. He said, “Respiratory
diseases such as MERS lead to severe damages in lung cells and immune cells.
Therefore, if patients with respiratory insufficiency suffer from sepsis, they
have a comparatively high mortality rate. In such cases, simultaneous drug
treatment is effective. By administering drugs to protect vascular endothelial
cells, which account for one third of the lung cells, the mortality rate of
sepsis is expected to drastically decrease. Recently, we have developed an
antibody for protecting vascular endothelial cells from pathogen-induced
damages through collaborative research.”
Congratulating
Director Koh on the establishment of his new Center, IBS President Doochul Kim
said, “I hope that Director Koh will conduct world-leading research and make groundbreaking
discoveries to bring a paradigm shift in therapeutic strategies.” With the
launch of the Center for Vascular Research, IBS now has a total of 25 Centers.
In the second half of this year, the Center for Nanomedicine led by Director
Jinwoo Cheon will be established.
* IBS Director
Gou Young Koh (Graduate School of Medical Science and Engineering, KAIST)
graduated from Chonbuk National University Medical School and earned his M.D.
and Ph.D. degrees from the same school. He worked as a research fellow at the
Department of Physiology, Cornell University Medical College, and as a research
associate at Krannert Institute of Cardiology, Indiana University.
After his return
to Korea, he served as an assistant professor and associate professor at the
Department of Physiology, Chonbuk National University Medical School, and as an
associate professor at the Department of Life Sciences, Pohang University of
Science and Technology. He also worked as a professor at the Graduate School of
Medical Science and Engineering, KAIST and, in 2011, he was appointed as a
distinguished professor at KAIST. Throughout his research career, he has
published around 230 papers in highly distinguished SCI journals. He has
achieved outstanding research outcomes in the field of Vascular Biology, with
some of them featuring as cover stories on scientific journals.
In 2012, he
received the Asan Medical Award in recognition of identifying key factors in
tumor growth and metastasis and developing an inhibitor to block such actions.
In addition, he has also received other prestigious awards. In 2007, he
received the Wunsch Medical Award. That was followed by the 2010 KAISTian of
the Year Award and in 2011 he received the Kyung-Ahm Prize. From 2011, Director
Koh has been serving as a member of the editorial board of Blood, one of the world’s most distinguished journals in the field
of Hematology published by the American Society of Hematology. Recently, he has
joined the editorial board of Cancer
Research, one of the major cancer journals published by the American
Association for Cancer Research. He is also currently serving as an associate
editor of Molecular Cancer and a
member of the editorial board of Experimental
& Molecular Medicine. Previous to this, he was also a member of the
editorial board of Arteriosclerosis,
Thrombosis and Vascular Biology.
[Attachment]
Profile and Research Plan
IBS Director Gou
Young Koh
Photo
|
|
Name
|
Gou Young Koh
|
Gender
|
Male
|
Year of Birth
|
1957
|
Age
|
58
|
Nationality
|
Republic of Korea
|
Affiliation
|
KAIST
|
Job Position (Job Title)
|
Distinguished Professor
|
Educational Background
|
B.D.
|
Chonbuk National University Medical
School
|
M.D. (Year)
|
Chonbuk National University Medical
School (1985)
|
Thesis
|
Renal Effects of Aldosterone Antagonist
|
Ph.D. (Year)
|
Chonbuk National University Medical
School (1991)
|
Dissertation
|
Effects
of Adenosine 1 Agonist
on Kidney Functions
|
Research Area
|
Vascular Biology
|
Professional Career
|
Year
|
Details
|
2011-
|
Distinguished
Professor, KAIST
|
2003-2010
|
Professor,
KAIST
|
2001-2003
|
Associate
Professor, POSTECH
|
1995-2001
|
Assistant
Professor & Associate Professor, Chonbuk National University Medical
School
|
Honors
& Awards
|
Year
|
Details
|
2012
|
Asan
Medical Award (Asan Foundation)
|
2011
|
Kyung-Ahm
Prize (Kyung-Ahm Education and Culture
Foundation)
|
2010
|
KAISTian
of the Year Award (KAIST)
|
2007
|
Wunsch
Medical Award (Korean Academy of Medical Sciences and Boehringer Ingelheim
Korea))
|
Representative
Paper
|
Year
|
Title
|
Journal
|
2014
|
Vascular
RhoJ is an effective and selective target for tumor angiogenesis and vascular
disruption
|
Cancer Cell
|
2010
|
Double
anti-angiogenic protein, DAAP, targeting VEGF-A and angiopoietins in tumor
angiogenesis, metastasis, and vascular leakage
|
Cancer Cell
|
2011
|
T
Lymphocytes negatively regulate lymph node lymphatic vessels through
Interferon-γ
|
Immunity
|
2009
|
Control
of vascular morphogenesis and homeostasis through the angiopoietin-Tie system
|
Nature Review Mol. Cell Biol.
|
2007
|
Bone
marrow-derived circulating progenitor cells fail to transdifferentiate into
adipocytes in adult adipose tissues in mice
|
Journal of Clinical Investigation
|
Remarks
|
- Professor Koh has a strong
publication record and high international reputation in the field of Vascular
Biology, and recently, he has achieved several outstanding outcomes.
- The angiogenesis and
lymphangiogenesis research he suggested is deemed to have a considerable effect
on both basic science and applied research that aims to prevent and treat
related diseases.
- He has achieved outstanding
research outcomes through active international collaborations, which proves
that he has a well-established international research network.
- It is impressive that he
suggested the establishment of a joint lab with Max Plank Institute for
Molecular Biomedicine in Munster.
- He is deemed to have exceptional
qualifications as an IBS director such as communicative skills, commitment
and determined mid- to long-term visions.
|
Research Plan
|
1. Identify novel key regulators and clarify their mechanisms in
organotypic EC heterogeneity, angiogenesis, and vascular remodeling and niche
2. Identify novel key regulators and clarify their mechanisms in
EC genesis, cardiogenesis and fate determination from ESC, and elucidate the
interaction between EC and pericytes
3. Unveil the critical roles of
key molecules in organotypic lymphangiogenesis, lymphatic remodeling and
regression, and lymphatic functions
4. Develop innovative methods, conduct vital imaging for
secretory molecules, and identify generation of angiogenic modulators
|
|