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How hardy volcanic microbes helped track down an anti-aging "superhero" protein.

Hardy microbes that make their home in volcanic pools may hold the key to a new anti-aging drug(Credit: fyletto/Depositphotos)
A team of scientists, looking to figure out how hardy little creatures known as archaea thrive in boiling, volcanic pools of sulfuric acid like they were hot tubs, may have uncovered the key to an anti-aging drug. By manipulating a so-called "super hero" protein common to both archaea and humans, the researchers found a way to "trick" cells into acting younger by keeping the DNA repairing process running much longer than usual.

In previous studies, the researchers examined how archaea have managed to survive in such harsh conditions for billions of years. Eventually they determined that a protein called ssB1 was responsible by helping the organisms repair damage to their DNA. The team says the real eureka moment came when they discovered that we humans have our own versions of this protein, hSSB1.

"In normal cells, ssB1 is like a guardian angel that is looking after the genetic code and, if there is any damage, we see it rush in to repair that damage," says Derek Richard, co-author of the study. "But, as we age, we lose parts of our genetic code, and that is the foundation for diseases such as cancer and Alzheimer's. When we found that ssB1 was helping the archaea to repair its damaged DNA, we realized we might have stumbled across the basis for a new cellular treatment for humans, to control our aging pathway and keep people healthier, for longer."

The researchers examined how hSSB1 functions in humans, and discovered it works through a pathway that seems to control aging. The team found that as we get older our bodies down-regulate hSSB1 and related proteins, which slows down the DNA repair process, leading to a whole range of health problems.

"The big link between cancer and aging is DNA repair," says Ken O'Byrne, co-author of the study. "As we age, our target protein starts to function differently and allows our genome to be damaged and this damage can cause cancer."

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