As we celebrate this season of giving, consider paying Alumni Association dues. Dues payments support the Alumni Association mission and are tax deductible!

Mayo Clinic research discovers how stem cells repair damage from heart attacks

Mayo Clinic researchers have uncovered stem cell-activated mechanisms of healing after a heart attack. Stem cells restored cardiac muscle back to its condition before the heart attack, providing a blueprint of how stem cells may work.

The study finds that human cardiopoietic cells zero in on damaged proteins to reverse complex changes caused by a heart attack. Cardiopoietic cells are derived from adult stem cell sources of bone marrow.

“The extent of change caused by a heart attack is too great for the heart to repair itself or to prevent further damage from occurring. Notably, however, cardiopoietic stem cell therapy reversed, either fully or partially, two-thirds of these disease-induced changes, such that 85% of all cellular functional categories affected by disease responded favorably to treatment,” says Andre Terzic, M.D., Ph.D. (CV ’92), director of Mayo Clinic’s Center for Regenerative Medicine in Rochester. Dr. Terzic is the senior author of the study and the Michael S. and Mary Sue Shannon Director, Mayo Clinic Center for Regenerative Medicine, Marriott Family Professor in Cardiovascular Diseases Research, and Marriott Family Director, Comprehensive Cardiac Regenerative Medicine.

This new understanding of how stem cells restore heart health could provide the framework for broader applications of stem cell therapy across various conditions.

“The actual mode of action of stem cells in repairing a diseased organ has until now been poorly understood, limiting adoption in clinical care. This study sheds light on the most intimate, yet comprehensive, regenerative mechanisms — paving a road map for responsible and increasingly informed stem cell application,” says Dr. Terzic.

Researchers compared the diseased hearts of mice that did not receive human cardiopoietic stem cell therapy with those that did.  Using a data science approach to map all the proteins in the heart muscle, researchers identified 4,000 cardiac proteins, more than 10% of which suffered damage by a heart attack.

“While we anticipated that the stem cell treatment would produce a beneficial outcome, we were surprised how far it shifted the state of diseased hearts away from disease and back toward a healthy, pre-disease state,” says Dr. Terzic.

Cardiopoietic stem cells are being tested in advanced clinical trials in heart patients.

 

Recommended reading

Posts about similar topics:

Shopping cart0
There are no products in the cart!