1. Chapel Hill- its a great place to learn about science!

2. How does a fertilized egg become an animal? Clam egg and sperm: ECB Fig. 20-3

3. Ain’t I Amazing!?

5. In the adult, most cells are specialized for specialized tasks Red blood cells carry oxygen Neurons trasmit electrical signals Pancreatic islet cells secrete insulin

6. We say these cells are terminally differentiated Red blood cells carry oxygen Neurons trasmit electrical signals Pancreatic islet cells secrete insulin

7. However, within most tissues, tissue stem cells retain the potential to make several different cell types

8. An example of tissue stem cells: the blood cell lineage

9. Tissue stem cells are already used to treat disease

10. A bone marrow transplant involves transferring stem cells to a recipient whose stem cells were killed

11. Tissue stems cells are “multipotent” i.e., their descendents Can do several different things

12. But they are NOT “totipotent” i.e., their descendents Do not contribute to Other tissues

13. However, the descendents of a fertilized egg can become ALL cell types in an animal. Clam egg and sperm: ECB Fig. 20-3

14. What happens during early human development? Inner cell mass

15. Embryos develop to the blastocyst stage before implantation (Day 6) Gilbert Fig. 11.26

16. Gastrulation & all later events occur within the mass of extraembryonic tissue

17. What are Embryonic stem cells? Blastocyst-stage cells that have been coaxed and coddled into growing in culture Source: Genetic Science Learning Center at the Eccles Institute of Human Genetics The University of Utah

18. Embryonic stem cells can be grown in a dish and then incorporated into an embryo. Their descendents can contribute to ALL tissues

19. Current human embryonic stem lines were derived from blastocyst-stage human embryos that were created for in vitro fertilization and not used Source: Genetic Science Learning Center at the Eccles Institute of Human Genetics The University of Utah

20. In theory, human embryonic stem lines could also be created by “therapeutic cloning”, Thus making them a perfect match for the donor Source: Genetic Science Learning Center at the Eccles Institute of Human Genetics The University of Utah

21. What if we could: Culture ES cells one way to Make dopaminergic neurons Culture ES cells a different way to Make muscle stem cells And culture ES cells a third way to Make pancreatic islet cells

22. 1. Parkinson’s disease: Implant stems cells that had been coaxed into being dopamine producing neurons (this is being tested with fetal cells today) 2. Type I Diabetes: Implant stem cells that had been coaxed into being insulin-producing islet cells (islet transplants have been done, but stem cells are not yet available) 3.Implant stem cells to repair heart damage (experiments being tried in the mouse) 4.Implant stem cells to repair spinal cord injury (Many hurdles lie ahead) now Soon? Farther off Examples of ways stem cells might be used to treat disease:

23. Little support Wide-spread support The views of the scientific community Reproductive cloning is viewed by essentially all scientists as a procedure that is unwise for Scientific and ethical reasons Continuing and expanding research using mouse and human embryonic stem cells is strongly supported by most scientific societies and individual scientists

24. The law On August 9, 2001 President Bush announced that he would permit Federal funds to be used only for research with human embryonic stem cells derived before August 9, the date of his speech

25. The flaws Some of the cell lines were not really ES lines Others are unavailable for proprietary reasons Others are genetically defective “16/78 lines have died 31/78 belong to foreign labs that will not Provide them to US researchers 7/78 are duplicates of other lines 8/78 are not currently available Of the remaining lines, some have “severe Genetic abnormalities” Gillis/Weiss, Washington Post, 3/3/2004

26. What are examples of groups That want changes in the current guidelines? American Medical Association American Society for Cell Biology Association of American Medical Colleges American Association for the Advancement of Science Juvenile Diabetes Research Foundation Christopher Reeve Paralysis Foundation National Council on Spinal Cord Injury.

27. Source: Genetic Science Learning Center at the Eccles Institute of Human Genetics The University of Utah Other alternatives?

28. Source: Genetic Science Learning Center at the Eccles Institute of Human Genetics The University of Utah Other alternatives?

29. Some research suggests Adult stem cells can be coaxed into changing fate in culture Can I be coaxed Into making neurons Or cardiac muscle?

30. The ideal situation is to use a patient as their own donor, eliminating issues of transplant rejection Source: Genetic Science Learning Center at the Eccles Institute of Human Genetics The University of Utah

31. Oct3/4, Sox2, c-Myc, and Klf4 James Thomson Science, Nov. 22 2007 Cell, Nov. 20 2007 OCT3, SOX2, NANOG and LIN28 1/10,000 cells reprogrammed Shinya Yamanaka 1/5,000 cells reprogrammed Then last week two labs repeated the trick with human cells!

32. Oct3/4, Sox2, c-Myc, and Klf4 Shinya Yamanaka Kyoto JAPAN Science June 2006 + June 2007 Screen for genes expressed specifically by ES cells 24 genes If all are mis-expressed in Skin cells, a small fraction Take on properties of ES cells Start eliminating genes: Ultimately find that these four can do the trick In the past year two breakthroughs have changed the landscape

33. http://gslc.genetics.utah.edu/units/stemcells/ Do you want to learn more? Check out the website of The Genetic Science Learning Center at the Eccles Institute of Human Genetics The University of Utah