Scripps Research Institute scientists convert skin cells to beating heart cells

Sheng Ding    Courtesy: TSRI
Sheng Ding Courtesy: TSRI

Press Release

Scripps Research Institute scientists have converted adult skin cells directly into beating heart cells efficiently without having to first go through the laborious process of generating embryonic-like stem cells. The powerful general technology platform could lead to new treatments for a range of diseases and injuries involving cell loss or damage, such as heart disease, Parkinson’s and Alzheimer’s disease.

The work was published January 30, 2011, in an advance, online issue of

Nature Cell Biology

.

"This work represents a new paradigm in stem cell reprogramming," said Scripps Research Associate Professor Sheng Ding, Ph.D., who led the study. "We hope it helps overcome major safety and other technical hurdles currently associated with some types of stem cell therapies."

Making stem cells

As the human body develops, embryonic-like stem cells multiply and transform themselves into more mature cell types through a process known as differentiation, producing all of the body’s different cell types and tissues. Past the embryonic stage, however, the human body has limited capacity to generate new cells to replace ones that have been lost or damaged.

Thus, scientists have been trying to develop ways to “reprogram” adult human cells back to a more embryonic-like, or pluripotent, state, from which they are able to divide and then change into any of the body’s cell types. Using these techniques, scientists aim to someday be able to take a patient’s own cells, say skin cells, change them into heart or brain cells, and then insert them back into the patient to fix damaged tissues.

In 2006, Japanese scientists reported that they could reprogram mouse skin cells to become pluripotent simply by inserting a set of four genes into the cells.

Although the technology to generate these cells, dubbed induced pluripotent stem (iPS) cells, represents a major advance, there are some hurdles to overcome before it can be adapted to therapies.

“It takes a long time to generate iPS cells and then differentiate them into tissue-specific functional cell types," said Ding, "and it’s a tedious process. Also, what you generate is not ideal.”

Specifically, it takes some two to four weeks for scientists to create iPS cells from skin cells and the process is far from efficient, with only one cell out of thousands making the complete transformation. Furthermore, once scientists obtain iPS cells, they then have to go through the tricky procedure of inducing the iPS cells to differentiate into desired types of cells, which takes an additional two to four weeks.

In addition, the process of generating mature cells from iPS cells is not foolproof. When, for example, scientists induce iPS cells to become heart cells, the resulting cells are a mix of heart cells and some lingering iPS cells. Scientists are concerned that giving these new heart cells (along with the remaining pluripotent cells) to patients might be dangerous. When pluripotent cells are injected in mice, they cause cancer-like growths.

Because of these concerns, Ding and colleagues decided to try to tweak the process by completely bypassing the iPS stage and going directly from one type of mature cell (a skin cell) to another (a heart cell).

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