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University of Colorado Denver | Anschutz Medical Campus

University of Colorado Denver, Newsroom

News Release

Researchers find safer way to transform skin cells into stem cells

8/21/2009
 

Researchers at the University of Colorado Denver’s School of Medicine have announced a new way to convert human skin cells to stem cells. In late 2007, a Japanese team reported that they had inserted four human genes into ordinary human skin cells and reprogrammed those cells into stem cells—cells possessing the same properties as embryonic stem cells, that could then become almost any other cell in the body. While a remarkable achievement, the viruses and genes used in their study were incorporated into the chromosomes of the new cells, leading to a risk of cancer if the cells were used in the treatment of diseases. 

In a paper released this week in the online version of Stem Cells, University of Colorado Denver’s School of Medicine researchers Wenbo Zhou, PhD, and Curt Freed, MD, have created “human induced pluripotent stem cells” (iPS cells)—reprogrammed to look and act like embryonic stem cells—from human skin fibroblasts using a common cold virus. The virus used is called adenovirus and has the advantage of not being incorporated into the DNA of the chromosomes, thereby producing stem cells that will be safer for use in human therapy. Freed and Zhou are the first to show that this method can be used to safely reprogram human cells.

“The previous research transformed mouse and human skin cells into stem cells which behave and function much like embryonic stem cells,” said Wenbo Zhou, PhD, assistant professor of Clinical Pharmacology and Toxicology in UC Denver’s School of Medicine and first author on the study. “Unfortunately, the cells were made with retroviruses which lead to malignant tumors. To be able to proceed with iPS cells for stem cell therapy in humans, cells must be free of the genes and viruses that were used to reprogram the cells.” 

“Stem cell research offers great promise for understanding basic mechanisms of human development and differentiation, as well as the hope for new treatments for diseases such as Parkinson’s disease, diabetes, spinal cord injury, and myocardial infarction,” said Curt Freed, MD, professor and head of the Division of Clinical Pharmacology and Toxicology in UC Denver’s School of Medicine and co-investigator of the study. “We have shown that the stem cells we’ve developed can be converted into all cell types in the body, including the dopamine neurons needed to treat Parkinson’s disease.”

This authors note this research is the next stepping stone or building block in the valuable work of transforming skin cells to stem cells—cells that can be used much like embryonic stem cells in research and eventually in the treatment of diseases.

The study was supported by the Leopold Korn and Michael Korn Professorship in Parkinson's Disease at the University of Colorado Denver and the Edward D. and Anna Mitchell Family Foundation. Zhou is a Coleman Faculty Fellow at the University of Colorado.

The University of Colorado Denver School of Medicine faculty work to advance science and improve care. These faculty members include physicians, educators and scientists at University of Colorado Hospital, The Children’s Hospital, Denver Health, National Jewish Health, and the Denver Veterans Affairs Medical Center. Degrees offered by the UC Denver School of Medicine include doctor of medicine, doctor of physical therapy, and masters of physician assistant studies.  The School is part of the University of Colorado Denver.  For additional news and information, please visit the UC Denver newsroom online.

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Contact: Tonya Ewers-Maikish, 303.315.6374, tonya.ewers@ucdenver.edu