Lunar gravity prevents skeletal muscle atrophy but not myofiber type shift in mice

Author:

Hayashi Takuto,Fujita Ryo,Okada Risa,Hamada MichitoORCID,Suzuki Riku,Fuseya SayakaORCID,Leckey James,Kanai Maho,Inoue Yuri,Sadaki Shunya,Nakamura Ayano,Okamura Yui,Abe Chikara,Morita Hironobu,Aiba TatsuyaORCID,Senkoji Teruhiro,Shimomura Michihiko,Okada Maki,Kamimura Daisuke,Yumoto Akane,Muratani MasafumiORCID,Kudo TakashiORCID,Shiba DaiORCID,Takahashi SatoruORCID

Abstract

AbstractSkeletal muscle is sensitive to gravitational alterations. We recently developed a multiple artificial-gravity research system (MARS), which can generate gravity ranging from microgravity to Earth gravity (1 g) in space. Using the MARS, we studied the effects of three different gravitational levels (microgravity, lunar gravity [1/6 g], and 1 g) on the skeletal muscle mass and myofiber constitution in mice. All mice survived and returned to Earth, and skeletal muscle was collected two days after landing. We observed that microgravity-induced soleus muscle atrophy was prevented by lunar gravity. However, lunar gravity failed to prevent the slow-to-fast myofiber transition in the soleus muscle in space. These results suggest that lunar gravity is enough to maintain proteostasis, but a greater gravitational force is required to prevent the myofiber type transition. Our study proposes that different gravitational thresholds may be required for skeletal muscle adaptation.

Publisher

Springer Science and Business Media LLC

Subject

General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology,Medicine (miscellaneous)

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