Heart's Mechanical Strain: A Natural Cancer Suppressant?
A study suggests that mechanical load from the heart's constant beating may suppress cancer cell growth, explaining the rarity of heart cancer. It highlights that mechanical forces in heart tissues alter gene regulation in cancer cells, potentially leading to novel mechanical-dependent cancer therapies.
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- India
New insights into the protective nature of the human heart against cancer have emerged from a recent study published in Science. The study proposes that the constant mechanical workload of the heart may play a crucial role in suppressing cancer cell proliferation, providing an explanation for the rarity of heart cancer.
Researchers from the International Centre for Genetic Engineering and Biotechnology in Italy suggest that the cardiac microenvironment's mechanical demands prevent cancer from forming or spreading within the heart. By designing a transplantation model, they demonstrated that a reduction in mechanical load promotes tumor growth within heart tissues.
Central to their findings, they identified the protein Nesprin-2, which transmits mechanical signals that alter gene expression related to cancer growth. Their discovery points towards potential development of therapies that harness mechanical forces to combat cancer.
(With inputs from agencies.)
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