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The Cutting Edge

The Healing Heart

  Healing Heart
  Illustration: Brad Yeo

There has been debate over the question of whether or not heart muscle can regenerate itself. Now, UCLA scientists have provided an answer: yes. A study by Reza Ardehali, MD, PhD, assistant professor of cardiology, and colleagues has demonstrated the first direct measure of heart-muscle cells renewing themselves. The findings have important implications for future research that could lead to the regeneration of heart tissue to repair damage caused by disease or heart attack.

It was initially believed that heart-muscle cells, or cardiomyocytes, were unable to replicate themselves and that their total number was set at birth; however, research over the past two decades has indicated that these cardiac cells have limited proliferative activity, though there has been no clear agreement within the scientific community as to why and how much.

In part, the indirect methods used to measure this potential cell division have been difficult, and at times inaccurate, preventing a scientific consensus. Some groups of researchers used carbon dating to detect the age of human cardiomyocytes to determine whether or not they divided after initial fetal development, but the accuracy of this technique was debated. Others published theories that the heart muscle had a very-high proliferative ability; recently, many of those papers were retracted because colleagues were unable to replicate the data.

To address the problems of measurement, Dr. Ardehali and his colleagues pioneered a novel genetic approach called mosaic analysis with double markers, or MADAM, to directly measure for the first time heart-cell division in a mouse model. They found that limited, lifelong symmetric division of cardiomyocytes, while rare, is evident in mice, but it diminishes significantly after the first month of life. No stem cells are involved in this process, the researchers said, and division of cardiomyocytes is limited to less than 1 percent per year.

The daughter cardiomyocytes that are the products of this rare cell division also divide, the researchers said, though very seldomly, which had not been shown before. The scientists found that the rate of cell division did not increase as a reparative response when myocardial infarction was induced in the mice.

“This is one of the most-convincing and direct ways of showing that the heart has a very limited regenerative power,” Dr. Ardehali says. “This is a very exciting discovery because we hope to use this knowledge to eventually be able to regenerate heart tissue. The goal is to identify the molecular pathways involved in symmetric division of cardiomyocytes and use them to induce regeneration to replenish heart muscle tissue after disease or injury.”

“Existing cardiomyocytes generate cardiomyocytes at a low rate after birth in mice,” Proceedings of the National Academy of Sciences, June 17, 2014.

 


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IN THIS ISSUE
  • Toward a Bright Tomorrow
  • Surgery through the Lens of Google Glass
  • A Game-changer in the Fight against Melanoma
  • Ferric Factor
  • A Double Dose of Promising Lung-cancer Findings
  • The Healing Heart
  • Gene May Offer Target to Combat Parkinson’s Disease
  • The True Healthcare Costs of Undocumented Immigrants
  • Lost in Translation
  • Depression Increases Risk for Diabetic Seniors
  • Redesigning the Well-child Checkup
  • Change Agent
  • To Heal the Human Instrument
  • Finding the Right Path
  • At the End of Too-few Days
  • Front-line Physician
  • Awards/Honors
  • In Memoriam
  • Promoting Exchange to Encourage Change
  • 2014 Alumnus of the Year
  • In His Own Words: Kevin Teehee, MD ’97
  • Postcard from Mozambique
  • UCLA Bestows Highest Honor on Distinguished Philanthropists
  • UCLA Health Sciences Honors Robert Draine
  • Music Creates a Personal Evening
  • Art and Science Take Flight at the Space Shuttle Pavilion
  • Celebrity Poker Event Benefits Center for Duchenne Muscular Dystrophy at UCLA
  • Visionary Force Behind UCLA Pancreatic-Cancer Research
  • Chairs of Distinction
  • In Memoriam
  • Gifts
  • From Patient to Physician: A Personal Journey
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