skip to main content

Listen

Read

Watch

Schedules

Programs

Events

Give

Account

Donation Heart Ribbon

San Diego Researchers Find Cure For Broken Hearts

Researchers at a pair of San Diego-based life science organizations announced today the discovery of a molecule that converts stem cells into healthy heart cells, ending a 15-year hunt.

Stem cell-derived cardiomyocytes (heart muscle cells) expressing a green fluorescent protein.
Enlarge this image

Above: Stem cell-derived cardiomyocytes (heart muscle cells) expressing a green fluorescent protein.

The finding, published in Friday's issue of the journal Cell Stem Cell, could lead to new treatments for heart disease. The study was performed at Researchers at a pair of San Diego-based life science organizations announced today the discovery of a molecule that converts stem cells into healthy heart cells, ending a 15-year hunt., the Human BioMolecular Research Institute, and ChemRegen Inc.

The molecule known as ITD-1 is able to generate an unlimited supply of heart cells, which would give scientists more heart cells to study in their research, and give physicians healthy cells to use to treat diseased hearts, according to the study.

Mark Mercola, director of Sanford-Burnham's Muscle Development and Regeneration Program, said heart disease is the leading cause of death in the U.S., but doctors can't replace damaged heart muscle.

"The only way to effectively replace lost heart muscle cells -- called cardiomyocytes -- is to transplant the entire heart,'' said Mercola, the senior author of the study. "Using a drug to create new heart muscle from stem cells would be far more appealing than heart transplantation.''

Stem cells were targeted for the study because they can self-replicate and convert to other, specialized types of cells. The challenge for scientists is to discover the signals that direct the stem cells to turn into the types of cells they want.

The researchers said ITD-1 works by preventing a protein from sending signals to cells that regulate various functions, allowing them to re-create themselves into heart cells.

According to Sanford-Burnham, Mercola has been looking for ways to convert stem cells into heart cells for 15 years.

"This particular molecule could be useful to enhance stem cell differentiation in a damaged heart,'' said Erik Willems, another author of the study. "At some point, it could become the basis for a new therapeutic drug for cardiovascular disease -- one that would likely limit scar spreading in heart failure and promote new muscle formation.''

According to Sanford-Burnham, Mercola, Willems, and John Cashman of the Human BioMolecular Research Institute are now working with San Diego biotech company ChemRegen Inc. to develop ITD-1 into a drug that one day might be used to treat patients.

Please stay on topic and be as concise as possible. Leaving a comment means you agree to our Community Discussion Rules. We like civilized discourse. We don't like spam, lying, profanity, harassment or personal attacks.

comments powered by Disqus