"Master Molecule" May Help Heart Treatment

Posted: July 12, 2012 at 10:13 am

Johns Hopkins researchers have discovered that a single protein molecule may hold the key to turning cardiac stem cells into blood vessels or muscle tissue, according to a release from the university. This finding may lead to better ways to treat heart attack patients.

Human heart tissue typically forms scars rather than healing well after an attack. However, stem cells have been shown improve the repair process by turning into the cells that make up healthy heart tissue, including heart muscle and blood vessels. The recent discovery of a master molecule that guides the destiny of these stem cells has the potential to result in even more effective treatments for heart patients, the Johns Hopkins researchers say.

In a study published in the June 5 online edition of journal Science Signaling, the Johns Hopkins team reported that tinkering with a protein molecule called p190RhoGAP shaped the development of cardiac stem cells and prodded them to become the building blocks for either blood vessels or heart muscle. The scientists said that by altering levels of this protein, they were able to affect the future of these stem cells. In biology, finding a central regulator like this is like finding a pot of gold, said Andre Levchenko, a biomedical engineering professor and member of the Johns Hopkins Institute for Cell Engineering, who supervised the research effort.

The lead author of the journal article, Kshitiz, a postdoctoral fellow who uses only his first name, said, Our findings greatly enhance our understanding of stem cell biology and suggest innovative new ways to control the behavior of cardiac stem cells before and after they are transplanted into a patient. This discovery could significantly change the way stem cell therapy is administered in heart patients.

See the article here:
"Master Molecule" May Help Heart Treatment

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