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Targeting myostatin/activin A protects against skeletal muscle and bone loss during spaceflight.


ABSTRACT: Among the physiological consequences of extended spaceflight are loss of skeletal muscle and bone mass. One signaling pathway that plays an important role in maintaining muscle and bone homeostasis is that regulated by the secreted signaling proteins, myostatin (MSTN) and activin A. Here, we used both genetic and pharmacological approaches to investigate the effect of targeting MSTN/activin A signaling in mice that were sent to the International Space Station. Wild type mice lost significant muscle and bone mass during the 33 d spent in microgravity. Muscle weights of Mstn -/- mice, which are about twice those of wild type mice, were largely maintained during spaceflight. Systemic inhibition of MSTN/activin A signaling using a soluble form of the activin type IIB receptor (ACVR2B), which can bind each of these ligands, led to dramatic increases in both muscle and bone mass, with effects being comparable in ground and flight mice. Exposure to microgravity and treatment with the soluble receptor each led to alterations in numerous signaling pathways, which were reflected in changes in levels of key signaling components in the blood as well as their RNA expression levels in muscle and bone. These findings have implications for therapeutic strategies to combat the concomitant muscle and bone loss occurring in people afflicted with disuse atrophy on Earth as well as in astronauts in space, especially during prolonged missions.

SUBMITTER: Lee SJ 

PROVIDER: S-EPMC7519220 | biostudies-literature | 2020 Sep

REPOSITORIES: biostudies-literature

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Targeting myostatin/activin A protects against skeletal muscle and bone loss during spaceflight.

Lee Se-Jin SJ   Lehar Adam A   Meir Jessica U JU   Koch Christina C   Morgan Andrew A   Warren Lara E LE   Rydzik Renata R   Youngstrom Daniel W DW   Chandok Harshpreet H   George Joshy J   Gogain Joseph J   Michaud Michael M   Stoklasek Thomas A TA   Liu Yewei Y   Germain-Lee Emily L EL  

Proceedings of the National Academy of Sciences of the United States of America 20200908 38


Among the physiological consequences of extended spaceflight are loss of skeletal muscle and bone mass. One signaling pathway that plays an important role in maintaining muscle and bone homeostasis is that regulated by the secreted signaling proteins, myostatin (MSTN) and activin A. Here, we used both genetic and pharmacological approaches to investigate the effect of targeting MSTN/activin A signaling in mice that were sent to the International Space Station. <i>Wild type</i> mice lost signific  ...[more]

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