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Of mice and spacemen: Understanding muscle wasting at the molecular level

Date:
May 11, 2021
Source:
University of Tsukuba
Summary:
Skeletal muscles undergo atrophy, or wasting, under conditions of reduced gravity, such as during spaceflight. Researchers explored the effects of microgravity and artificial gravity (1 g) on mice housed at the International Space Station for 35 days. Artificial gravity successfully prevented the gross and molecular changes observed in the muscles of mice subjected to microgravity.
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Most of us have imagined how free it would feel to float around, like an astronaut, in conditions of reduced gravity. But have you ever considered what the effects of reduced gravity might have on muscles? Gravity is a constant force on Earth which all living creatures have evolved to rely on and adapt to. Space exploration has brought about many scientific and technological advances, yet manned spaceflights come at a cost to astronauts, including reduced skeletal muscle mass and strength.

Conventional studies investigating the effects of reduced gravity on muscle mass and function have used a ground control group that is not directly comparable to the space experimental group. Researchers from the University of Tsukuba set out to explore the effects of gravity in mice subjected to the same housing conditions, including those experienced during launch and landing. "In humans, spaceflight causes muscle atrophy and can lead to serious medical problems after return to Earth" says senior author Professor Satoru Takahashi. "This study was designed based on the critical need to understand the molecular mechanisms through which muscle atrophy occurs in conditions of microgravity and artificial gravity."

Two groups of mice (six per group) were housed onboard the International Space Station for 35 days. One group was subjected to artificial gravity (1 g) and the other to microgravity. All mice were alive upon return to Earth and the team compared the effects of the different onboard environments on skeletal muscles. "To understand what was happening inside the muscles and cells, at the molecular level, we examined the muscle fibers. Our results show that artificial gravity prevents the changes observed in mice subjected to microgravity, including muscle atrophy and changes in gene expression," explained Prof. Takahashi. Transcriptional analysis of gene expression revealed that artificial gravity prevented altered expression of atrophy related genes and identified novel candidate genes associated with atrophy. Specifically, a gene called Cacng1 was identified as possibly having a functional role in myotube atrophy.

This work supports the use of spaceflight datasets using 1 g artificial gravity for examining the effects of spaceflight in muscles. These studies will likely aid our understanding of the mechanisms of muscle atrophy and may ultimately influence the treatment of related diseases.


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Materials provided by University of Tsukuba. Note: Content may be edited for style and length.


Journal Reference:

  1. Risa Okada, Shin-ichiro Fujita, Riku Suzuki, Takuto Hayashi, Hirona Tsubouchi, Chihiro Kato, Shunya Sadaki, Maho Kanai, Sayaka Fuseya, Yuri Inoue, Hyojung Jeon, Michito Hamada, Akihiro Kuno, Akiko Ishii, Akira Tamaoka, Jun Tanihata, Naoki Ito, Dai Shiba, Masaki Shirakawa, Masafumi Muratani, Takashi Kudo, Satoru Takahashi. Transcriptome analysis of gravitational effects on mouse skeletal muscles under microgravity and artificial 1 g onboard environment. Scientific Reports, 2021; 11 (1) DOI: 10.1038/s41598-021-88392-4

Cite This Page:

University of Tsukuba. "Of mice and spacemen: Understanding muscle wasting at the molecular level." ScienceDaily. ScienceDaily, 11 May 2021. <www.sciencedaily.com/releases/2021/05/210511123628.htm>.
University of Tsukuba. (2021, May 11). Of mice and spacemen: Understanding muscle wasting at the molecular level. ScienceDaily. Retrieved October 31, 2024 from www.sciencedaily.com/releases/2021/05/210511123628.htm
University of Tsukuba. "Of mice and spacemen: Understanding muscle wasting at the molecular level." ScienceDaily. www.sciencedaily.com/releases/2021/05/210511123628.htm (accessed October 31, 2024).

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