Telomeres, mitochondria, and inflammation work together to prevent cancer


As we age, the end caps of our chromosomes, called telomeres, gradually shorten. Now, scientists have discovered that when telomeres become very short, they communicate with mitochondria, the cell’s powerhouses. This communication triggers a complex set of signaling pathways and initiates an inflammatory response that destroys cells that could otherwise become cancerous.

The findings, published in Nature, could lead to new ways of preventing and treating cancer as well as designing better interventions to offset the harmful consequences of aging. 

“We were excited to discover that telomeres talk to mitochondria,” says the senior author. “They clearly synergize in well-controlled biological processes to initiate cellular pathways that kill cells that could cause cancer.”

When telomeres shorten to a point where they can no longer protect chromosomes from damage, a process called “crisis” occurs and cells die. This beneficial natural process removes cells with very short telomeres and unstable genomes and is known to be a powerful barrier against cancer formation. The authors previously discovered that cells in crisis are removed by a process called autophagy, in which the body rids itself of damaged cells.

In this study, the team wanted to know how autophagy-dependent cell-death programs are activated during crisis, when telomeres are extremely short. By conducting a genetic screen using human skin cells called fibroblasts, the scientists discovered interdependent immune sensing and inflammatory signaling pathways—similar to the ones by which the immune system combats viruses—that are crucial for cell death during crisis. Specifically, they found that RNA molecules emanating from short telomeres activate immune sensors called ZBP1 and MAVS in a unique way on the outer surface of mitochondria. 

The findings demonstrate important links between telomeres, mitochondria, and inflammation and underscore how cells can bypass crisis (thereby evading destruction) and become cancerous when the pathways are not functioning properly.

“Telomeres, mitochondria, and inflammation are three hallmarks of aging that are most often studied in isolation,” says the senior author. “Our findings showing that stressed telomeres send an RNA message to mitochondria to cause inflammation highlights the need to study interactions between these hallmarks to fully understand aging and perhaps intervene to increase health span in humans.”

“Cancer formation is not a simple process,” says another author. “It is a multistep process that requires many alterations and changes throughout the cell. A better understanding of the complex pathways linking telomeres and mitochondria may lead to the development of novel cancer therapeutics in the future.”

Next, the scientists plan to further examine the molecular basis of these pathways and explore the therapeutic potential of targeting these pathways to prevent or treat cancer.

https://www.nature.com/articles/s41586-023-05710-8

http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2Ftelomere-to-mitochondria&filter=22

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