Nov 04 (Kyodo) - Experiments on mice that were taken to the International Space Station have shown an internal protein has the potential to help slow the aging process, according to a joint study by the Japan Aerospace Exploration Agency and Tohoku University.
While in space, the mice went through biological changes similar to aging, only fast-forwarded, and the protein -- called nuclear factor erythroid 2-related factor 2, or Nrf2 -- slowed down part of the transformation, JAXA said.
A team of scientists from the space agency and the university hope the discovery will pave the way for the development of drugs to treat a broad range of illnesses associated with old age, such as Alzheimer's, dementia and diabetes.
The scientists also expect the findings to help develop treatments to mitigate health risks involved with space travel.
Amid micro gravity and radiation stronger than on the ground, spaceflight is known to cause various aging-like physical deteriorations including the loss of bone density and muscle mass.
According to the study, 12 mice spent 31 days in Japan's Kibo science module on the space station, having been transported there on board a SpaceX Falcon rocket in spring 2018.
Of the 12 "space mice," half had been genetically engineered to lack Nrf2, a known regulator to switch on and off the stress defense mechanism, while the other half remained unmodified.
Comparative studies on the two groups showed the ones without Nrf2 experienced an acceleration of changes in blood components similar to those induced by aging, while the other six showed little such transformation.
All the mice were 11-weeks old at the time of the launch and still gaining weight. But those without Nrf2 did not put on any weight once in space, despite there being no notable differences in food and water intake among the two groups, the team said.
