Tissue Engineering Lecture 5 Paper Review Discovery of Induced Pluripotent Stem Cells.

Slides:

Advertisements

Similar presentations

Induced pluripotent stem (iPS) cells Patient-Specific Pluripotent Stem Cells.

Advertisements

Summer 2007 Workshop in Biology and Multimedia for High School Teachers.

Cloning – In the Eyes of the Beholder Ida Chow, Ph.D. Society for Developmental Biology Bethesda, Maryland.

1 Lecture 2: Nuclear Reprogramming. Nuclear Reprogramming 2 Switch of gene expression from one cell type to another Switch from a differentiated, specialized.

Human Development starts with just 1 cell – the fertilized egg. This cell divides to produce 2 ‘daughter cells’. These daughters divide, and their daughters.

Human Induced Pluripotent Stem Cells (hiPS Cells)

Research Techniques Made Simple: Induced Pluripotent Stem Cells in Dermatological Research Jason Dinella 1-3, Maranke I. Koster 1-3, and Peter J. Koch.

MARIE CSETE MD, PhD CHIEF SCIENTIFIC OFFICER

STEM CELLS Image Credit: Mesenchymal precursor cellsMesenchymal precursor cells.

Manifestation of Novel Social Challenges of the European Union in the Teaching Material of Medical Biotechnology Master’s Programmes at the University.

Cloning and Stem Cells How are animals cloned, especially mammals? What is the difference between reproductive cloning and therapeutic cloning? What is.

複製人的契機？. Producing primate embryonic stem cells by somatic cell nuclear transfer.

Tissue Engineering Lecture 13, 3/26/15 Paper Review 3D gels for ischemia.

Epigenetics: Nuclear transplantation & Reprogramming of the genome

Student Society for Stem Cell Research February 27, 2008 Virginia Commonwealth University.

Stem Cells: Myths, Facts, and Ethics

Self-renewal vs. Differentiation of Mouse Embryonic Stem Cells TVGH Journal Club, introduced by Dr. 張宏吉, May 6, K. Sue O'Shea 2004 Biology of Reproduction.

SS 2009lecture 9 Biological Sequence Analysis 1 V9 The current hype about stem cells Boiani & Schöler, Nat Rev Mol Cell Biol 6, 872 (2005)

Tissue Maintenance Cell turnover by division/death –Division of fully differentiated cells –Division of stem cells Turnover components within cell.

BY : Dr. Amer Mahmood Dalia Ali. Introducing….stem cells!

Stem Cells from Skin Cells?!? The story of four little genes and a HUGE cellular change.

Trends in Biotechnology Revision Questions. In 2005, ES-like cells were generated using four factors. The resulting cells were called iPS cells. What.

Stage 1 Biology Semester Biotechnology

Peter Rathjen Stem cell therapies – and the future of medicine.

Dr. Abdullah Aldahmash. Cell Stem Cell – Definition A cell which has the ability to continuously divide and differentiate into various other kinds of.

 Stem Cells and Cloning. Stem Cells  Stem Cell: a cell that can continuously divide and differentiate into various tissues  Two Types:  Multipotent:

Stem Cells and the Maintenance of Adult Tissues

5-2a: Cloning How are mammals cloned?

STEM CELL CLASS DISCUSSION What is Your Opinion? Day 1 - Review and Research Day 2 - Discussion/Debate - Write out your Opinion!

Cell Therapy in CV Disease: Newest Evidence. 2 Induction of pluripotent stem cells from human fibroblasts Study Source of fibroblasts Transcription factors.

Stem Cell Biology Presentors: Ayesha Bano, Allyn Bryan, and Caleb.

Reprogramming of somatic cells via TAT- mediated protein transduction of recombinant factors Presented by Wu Meng.

鞠俊.  Taking this into account, it makes sense that the induction of pluripotent stem cells (iPS cells) from somatic cells also requires transformation.

STEM CELLS: A Review.

Human long non ‐ coding RNAs promote pluripotency and neuronal differentiation by association with chromatin modifiers and transcription factors by Shi.

Takahashi and Yamanaka, 2006 Fig 1. Takahashi and Yamanaka, 2006 Fig 1.

Stem cell and regenerative medicine

Stem Cells : Therapeutic Perspectives

Stem Cells & Cancer What? Where? How? Why?.

بسم الله الرحمن الرحيم.

Semmelweis University

Hypoxia Enhances the Generation of Induced Pluripotent Stem Cells

Human Induced Pluripotent Stem Cells: Now Open to Discovery

Plant and Animal Biotechnology

The 3D Genome Shapes Up For Pluripotency

Pluripotent stem cell models of cardiac disease and their implication for drug discovery and development Richard P. Davis, Cathelijne W. van den Berg,

In the name of god.

Robert Passier, Christine Mummery Cell Stem Cell

Induced Pluripotent Stem Cells (iPS)

Human Induced Pluripotent Stem Cells: Now Open to Discovery

Jacob H. Hanna, Krishanu Saha, Rudolf Jaenisch Cell

Recreating Pluripotency?

A rapidly evolving revolution in stem cell biology and medicine

Rudolf Jaenisch, Richard Young Cell

Induced pluripotent stem cells: A new era for hepatology

S. Tamir Rashid, Graeme J.M. Alexander Journal of Hepatology

Molecular Control of Induced Pluripotency

Modeling Rett Syndrome with Stem Cells

Nanog Cell Volume 113, Issue 5, Pages (May 2003)

Pluripotent stem cell models of cardiac disease and their implication for drug discovery and development Richard P. Davis, Cathelijne W. van den Berg,

Hank describes Stem Cells

Stem cell Basics.

A Transcriptional Logic for Nuclear Reprogramming

Plant and Animal Biotechnology

Embryonic and adult stem cell therapy

Historical Origins of Transdifferentiation and Reprogramming

Epigenetic factors influencing resistance to nuclear reprogramming

Global Splicing Pattern Reversion during Somatic Cell Reprogramming

Presentation transcript:

Tissue Engineering Lecture 5 Paper Review Discovery of Induced Pluripotent Stem Cells

Kazutoshi Takahashi and Shinya Yamanaka Our group will use molecular and cell biological techniques to gain a better understanding of mechanisms underlying the pluripotent state. We expect to pursue crucial issues in this work, not only the reprogramming phenomenon itself, and are particularly intrigued by the variations between cell lines that arise from differences between individuals. The goal of our laboratory is to generate pluripotent stem cells from human somatic cells. Somatic cells can be reprogrammed either by nuclear transfer into oocytes or by fusion with embryonic stem (ES) cells. These results suggest that oocytes and ES cells contain factors that induce reprogramming. By identifying these factors, it should be possible to induce pluripotency in somatic cells without using embryos or oocytes.

Why do we need a new source of stem cells? Prior to this study, others had shown that you could re-program adult cells by transferring nuclear contents into oocytes, or by fusing with ES cells. These are really difficult – is there an easier way? Ethical difficulties with using ES cells

Figure 1: Akarawin Hongdusit

Figure 2: Hiu Yeung

Figure 3: Alpha Bamba

Figure 4: Michael Mulroy

Figure 5: Brittany Shepler

Figure 6: Kyle Pariseau

Figure 7: Christine Davis

Stem Cell Genes Oct3/4: marker for stem cells. Tightly controlled. Is a transcription factor. Sox2: marker for stem cells. Is a transcription factor. Overexpression can cause cancer. C-Myc – Transcription factor. later shown to be tumorigenic. Originally discovered in lymphoma. Follow up studies show that this gene is dispensable. Klf4 – transcription factor. Regulates cell growth. Stem cell marker. Nanog (dispensable). Transcription factor. Stem cell marker. Critical for ES cells but seems to be dispensable for iPSC creation.

Conclusions, Perspectives Generation of iPSCs, as shown in mouse cells here, is now being routinely done in human cells. This has been repeated also with protein delivery and non-integrating plasmids. This is still an inefficient process, and there are big differences in efficiency between different starting cell populations.