Induction of Pluripotency by Defined Factors
Air date: Thursday, January 14, 2010, 3:00:00 PM
Time displayed is Eastern Time, Washington DC Local
Category: Wednesday Afternoon Lectures
Description: Human ES cells have been expected as suitable resources for cell transplantation therapies. However, it has sparked ethical controversy and causes immune rejection. Hence, we decided to generate an ideal pluripotent stem cell for innovative medicine.
At first, we constructed a pluripotency assay system that the candidate factors are introduced into neonate fibroblasts via retrovirus vectors. As the result, the set of Oct3/4, Sox2, c-Myc, and Klf-4 gave rise to drug resistant colonies implying potential pluripotency. The survived cells resembled ES cells in terms of morphology and proliferation showed ES cell markers and formed teratoma. It was named as induced pluripotent stem cell (iPS cell). iPS cells were created even from adult mouse fibroblasts. Moreover, iPS cells based on Nanog-expression demonstrated germline transmission. Furthermore, we successfully generated iPS cells from human adult fibroblasts, using a modified protocol.
However, tumor formation was observed in chimera mouse, probably due to c-Myc retrovirus integrated into genome. We re-modified the protocol and successfully established iPS cells without using c-Myc. As further effort to lower a risk of tumorigenesis, we recently succeeded in developing a virus-free method - using a pair of plasmid vectors, instead of retrovirus vectors, to introduce the four genes into mouse fibroblasts.
Further research results are discussed from the points of safety and induction efficiency of iPS cells for future clinical grade.
The NIH Director's Wednesday Afternoon Lecture Series includes weekly scientific talks by some of the top researchers in the biomedical sciences worldwide.
Runtime: 01:09:50
NLM Title: Induction of pluripotency by defined factors [electronic resource] / Shinya Yamanaka.
Series: NIH director's Wednesday afternoon lecture series
Author: Yamanaka, Shinya.
National Institutes of Health (U.S.)
Publisher: [Bethesda, Md. : National Institutes of Health, 2010]
Other Title(s): NIH director's Wednesday afternoon lecture series
Abstract: (CIT): Human ES cells have been expected as suitable resources for cell transplantation therapies. However, it has sparked ethical controversy and causes immune rejection. Hence, we decided to generate an ideal pluripotent stem cell for innovative medicine. At first, we constructed a pluripotency assay system that the candidate factors are introduced into neonate fibroblasts via retrovirus vectors. As the result, the set of Oct3/4, Sox2, c-Myc, and Klf-4 gave rise to drug resistant colonies implying potential pluripotency. The survived cells resembled ES cells in terms of morphology and proliferation showed ES cell markers and formed teratoma. It was named as induced pluripotent stem cell (iPS cell). iPS cells were created even from adult mouse fibroblasts. Moreover, iPS cells based on Nanog-expression demonstrated germline transmission. Furthermore, we successfully generated iPS cells from human adult fibroblasts, using a modified protocol. However, tumor formation was observed in chimera mouse, probably due to c-Myc retrovirus integrated into genome. We re-modified the protocol and successfully established iPS cells without using c-Myc. As further effort to lower a risk of tumorigenesis, we recently succeeded in developing a virus-free method - using a pair of plasmid vectors, instead of retrovirus vectors, to introduce the four genes into mouse fibroblasts. Further research results are discussed from the points of safety and induction efficiency of iPS cells for future clinical grade.
Subjects: Induced Pluripotent Stem Cells--physiology
Induced Pluripotent Stem Cells--transplantation
Publication Types: Government Publications
Lectures
Webcasts
Permanent link: http://videocast.nih.gov/launch.asp?15547
wals011410
Видео Induction of Pluripotency by Defined Factors канала NIH VideoCast
Time displayed is Eastern Time, Washington DC Local
Category: Wednesday Afternoon Lectures
Description: Human ES cells have been expected as suitable resources for cell transplantation therapies. However, it has sparked ethical controversy and causes immune rejection. Hence, we decided to generate an ideal pluripotent stem cell for innovative medicine.
At first, we constructed a pluripotency assay system that the candidate factors are introduced into neonate fibroblasts via retrovirus vectors. As the result, the set of Oct3/4, Sox2, c-Myc, and Klf-4 gave rise to drug resistant colonies implying potential pluripotency. The survived cells resembled ES cells in terms of morphology and proliferation showed ES cell markers and formed teratoma. It was named as induced pluripotent stem cell (iPS cell). iPS cells were created even from adult mouse fibroblasts. Moreover, iPS cells based on Nanog-expression demonstrated germline transmission. Furthermore, we successfully generated iPS cells from human adult fibroblasts, using a modified protocol.
However, tumor formation was observed in chimera mouse, probably due to c-Myc retrovirus integrated into genome. We re-modified the protocol and successfully established iPS cells without using c-Myc. As further effort to lower a risk of tumorigenesis, we recently succeeded in developing a virus-free method - using a pair of plasmid vectors, instead of retrovirus vectors, to introduce the four genes into mouse fibroblasts.
Further research results are discussed from the points of safety and induction efficiency of iPS cells for future clinical grade.
The NIH Director's Wednesday Afternoon Lecture Series includes weekly scientific talks by some of the top researchers in the biomedical sciences worldwide.
Runtime: 01:09:50
NLM Title: Induction of pluripotency by defined factors [electronic resource] / Shinya Yamanaka.
Series: NIH director's Wednesday afternoon lecture series
Author: Yamanaka, Shinya.
National Institutes of Health (U.S.)
Publisher: [Bethesda, Md. : National Institutes of Health, 2010]
Other Title(s): NIH director's Wednesday afternoon lecture series
Abstract: (CIT): Human ES cells have been expected as suitable resources for cell transplantation therapies. However, it has sparked ethical controversy and causes immune rejection. Hence, we decided to generate an ideal pluripotent stem cell for innovative medicine. At first, we constructed a pluripotency assay system that the candidate factors are introduced into neonate fibroblasts via retrovirus vectors. As the result, the set of Oct3/4, Sox2, c-Myc, and Klf-4 gave rise to drug resistant colonies implying potential pluripotency. The survived cells resembled ES cells in terms of morphology and proliferation showed ES cell markers and formed teratoma. It was named as induced pluripotent stem cell (iPS cell). iPS cells were created even from adult mouse fibroblasts. Moreover, iPS cells based on Nanog-expression demonstrated germline transmission. Furthermore, we successfully generated iPS cells from human adult fibroblasts, using a modified protocol. However, tumor formation was observed in chimera mouse, probably due to c-Myc retrovirus integrated into genome. We re-modified the protocol and successfully established iPS cells without using c-Myc. As further effort to lower a risk of tumorigenesis, we recently succeeded in developing a virus-free method - using a pair of plasmid vectors, instead of retrovirus vectors, to introduce the four genes into mouse fibroblasts. Further research results are discussed from the points of safety and induction efficiency of iPS cells for future clinical grade.
Subjects: Induced Pluripotent Stem Cells--physiology
Induced Pluripotent Stem Cells--transplantation
Publication Types: Government Publications
Lectures
Webcasts
Permanent link: http://videocast.nih.gov/launch.asp?15547
wals011410
Видео Induction of Pluripotency by Defined Factors канала NIH VideoCast
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
2012 Nobel Lectures in Physiology or Medicine
Regrowing heart muscle with stem cells | Dr. Chuck Murry | TEDxSeattle
Induced pluripotent stem cells - Rudolf Jaenisch
A New Era of Medicine with iPS Cells - Lecture by Professor Shinya Yamanaka
Ancient DNA and the new science of the human past
2018 Demystifying Medicine: Use of induced pluripotent stem cells (iPSC) for regenerative medicine
From Stem Cells to Cures - Gladstone Institutes 2015 Fall Symposium
Method of the Year 2009: iPS cells
Genome regulation by long noncoding RNAs![Shinya Yamanaka [iPS Cell Researcher] - We, in the Time of Corona](https://i.ytimg.com/vi/ORBDUannwHM/default.jpg)
Shinya Yamanaka [iPS Cell Researcher] - We, in the Time of Corona
Shinya Yamanaka: 2017 Breakthrough Prize Symposium
Stem cells - the future: an introduction to iPS cells
Lasker Lecture: Dr. Shinya Yamanaka, 2 of 3
Modifying Cell Identity Through Reprogramming
Rebuilding the kidney from stem cells
Unlocking the Secrets of Our Cells: The nobel prize
Induced Pluripotent Stem Cell iPSC
Can we regenerate heart muscle with stem cells? | Chuck Murry
Sensing from within: how the immune system discriminates friend from foe
From Stem Cells to Cures - Shinya Yamanaka - Gladstone Symposium