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The heart cannot regenerate tissues and heal itself, says new study

Researchers have revealed that the heart muscle is one of the least renewable tissues in the body, leading to a high incidence of death from heart disease.

Updated on: Jun 06, 2017 11:55 AM IST
Asian News International, Washington DC | By
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Heart disease is the leading cause of death for both men and women. One of the reasons for that is the nature of the muscle. According to a new study, a group of researchers have found that the heart muscle is one of the least renewable tissues in the body. The team has studied pathways known to be involved in heart cell functions and discovered a previously unknown connection between processes that keep the heart from repairing itself. The study was published in the journal Nature.

The team discovered a previously unknown connection between processes that keep the heart from repairing itself. (Shutterstock)
The team discovered a previously unknown connection between processes that keep the heart from repairing itself. (Shutterstock)

“We are investigating the question of why the heart muscle doesn’t renew. In this study, we focused on two pathways of cardiomyocytes or heart cells; the Hippo pathway, which is involved in stopping renewal of adult cardiomyocytes, and the dystrophin glycoprotein complex (DGC) pathway, essential for cardiomyocyte normal functions,” shared senior author Dr James Martin, professor and Vivian L Smith Chair in Regenerative Medicine at Baylor College of Medicine.

Another long-term application of this discovery could be to improve cardiac function in children with muscular dystrophy.

Previous work had hinted that components of the DGC pathway may somehow interact with members of the Hippo pathway. In this research, Martin and colleagues studied the consequences of this interaction in animal models. The researchers genetically engineered mice to lack genes involved in one or both pathways, and then determined the ability of the heart to repair an injury.

Another long-term application of this discovery could be to improve cardiac function in children with muscular dystrophy. “Patients with muscular dystrophy can have severe reduction in cardiac function. Our findings may help to design medicines to slow down cardiac decline in muscular dystrophy by stimulating cardiomyocyte proliferation. In order to do that, we need more research to understand cardiomyocyte growth control pathways in greater detail,” explained Martin.

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