Molecular changes in the liver of space travelers provide clues about aging

· News-Medical

What happens to the human body in space may help scientists create new anti-aging therapies.

UCF's Michal Masternak and his team have identified molecular changes in the liver that happen when space travelers experience radiation and microgravity. These changes – that resemble accelerated aging – provide new insight into how prolonged space missions may increase health risks for astronauts and reveal potential targets for therapies that could combat age-related diseases on Earth.

Navigating the science

The exposure triggered noticeable and potentially harmful changes in the liver, including increased cellular senescence (aging and decreased cell function), inflammation and fibrosis. Left untreated, these conditions can eventually lead to declining and even failing organ function.

"We've got this raw data from human studies, and they show that some of these changes are similar," Masternak says. "That tells us we're identifying useful molecular targets that one day could help protect astronauts during long-duration space missions."

They also went a step further to see whether the changes could be treated. They identified a group of molecules known as antagomirs that alter several aging and inflammatory genetic pathways by interacting with the body's microRNA. This system could pinpoint promising future therapies for space travelers.

Understanding aging in the space age

Masternak says the nation's growing space industry provides a unique opportunity to study aging at an accelerated pace.

"Very often when we study different aging processes, it takes time," he says. "Even in humans, it's almost impossible because it would take decades. But if we see some acceleration of aging in space, then we can translate it to human studies. We can observe processes happening much faster, understand them better and eventually use that knowledge to improve health for people here on Earth."

Those discoveries could eventually lead to therapies that slow age-related diseases, preserve organ function and improve quality of life for everyone as they age.

"Our understanding of aging is very complex," Masternak says. "Aging isn't simply wrinkles or cosmetic changes. It's the gradual and cascading failure of multiple organs and biological systems that happen at the same time. By understanding what starts that process and where it happens, we have a better chance of preventing many diseases before they develop. That is one of the biggest outstanding questions."

Students positioned at the forefront of space medicine

"I want to keep exploring the unknown," Alam says. "I really want to understand how space travel influences human health, particularly its effects on aging and cancer."

"When people think of aging, they think only about elderly populations," says Siddiqi, who earned her bachelor's degree as a Burnett Honors Scholar in biomedical sciences. "But we study aging across different stages of life and different environments, including space. I'll always be focused on improving quality of life. I want to better understand diseases that are increasingly prevalent and find ways to recognize them earlier, before they progress to later stages."

Source:

UCF College of Medicine

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