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Protein Found to Mimic Exercise

Accepted submission by RandomFactor at 2020-01-16 04:39:04 from the nerds win dept.
Science

University of Michigan researchers have determined that the class of proteins known as Sestrins mimic the effects of exercise [sciencedaily.com] in mice and flies.

The findings could eventually help scientists combat muscle wasting due to aging and other causes.

Flies with increased levels of Sestrin showed increased endurance vs flies without it. Mice without the ability to produce Sestrin did not gain the improved aerobic capacity, respiration, and fat burning that those with it did when exercized.

For three weeks, researchers used a kind of treadmill to train Drosophila flies, which will instinctively attempt to climb up and out of a test tube.

when they overexpressed Sestrin in the muscles of normal flies, essentially maxing out their Sestrin levels, they found those flies had abilities above and beyond the trained flies, even without exercise. In fact, flies with overexpressed Sestrin didn't develop more endurance when exercised.

Additionally it was determined that

Sestrin can also help prevent atrophy in a muscle that's immobilized, such as the type that occurs when a limb is in a cast for a long period of time. "This independent study again highlights that Sestrin alone is sufficient to produce many benefits of physical movement and exercise," said [professor Jun Hee Lee.]

The first question that comes to mind for some may be whether Sestrin might one day come in a handy pill form. Unfortunately Sestrins are large molecules not well suited to supplements, however the team is "working to find small molecule modulators of Sestrin."

Journal Reference

Myungjin Kim, Alyson Sujkowski, Sim Namkoong, Bondong Gu, Tyler Cobb, Boyoung Kim, Allison H. Kowalsky, Chun-Seok Cho, Ian Semple, Seung-Hyun Ro, Carol Davis, Susan V. Brooks, Michael Karin, Robert J. Wessells, Jun Hee Lee. Sestrins are evolutionarily conserved mediators of exercise benefits. Nature Communications, 2020; 11 (1) DOI: 10.1038/s41467-019-13442-5 [doi.org]


Original Submission