Genetic diversity modulates the physical and transcriptomic response of skeletal muscle to simulated microgravity in male mice.

Journal

NPJ microgravity
ISSN: 2373-8065
Titre abrégé: NPJ Microgravity
Pays: United States
ID NLM: 101703605

Informations de publication

Date de publication:
01 Dec 2023
Historique:
received: 17 05 2023
accepted: 09 11 2023
medline: 2 12 2023
pubmed: 2 12 2023
entrez: 1 12 2023
Statut: epublish

Résumé

Developments in long-term space exploration necessitate advancements in countermeasures against microgravity-induced skeletal muscle loss. Astronaut data shows considerable variation in muscle loss in response to microgravity. Previous experiments suggest that genetic background influences the skeletal muscle response to unloading, but no in-depth analysis of genetic expression has been performed. Here, we placed eight, male, inbred founder strains of the diversity outbred mice (129S1/SvImJ, A/J, C57BL/6J, CAST/EiJ, NOD/ShiLtJ, NZO/HILtJ, PWK/PhJ, and WSB/EiJ) in simulated microgravity (SM) via hindlimb unloading for three weeks. Body weight, muscle morphology, muscle strength, protein synthesis marker expression, and RNA expression were collected. A/J and CAST/EiJ mice were most susceptible to SM-induced muscle loss, whereas NOD/ShiLtJ mice were the most protected. In response to SM, A/J and CAST/EiJ mice experienced reductions in body weight, muscle mass, muscle volume, and muscle cross-sectional area. A/J mice had the highest number of differentially expressed genes (68) and associated gene ontologies (328). Downregulation of immunological gene ontologies and genes encoding anabolic immune factors suggest that immune dysregulation contributes to the response of A/J mice to SM. Several muscle properties showed significant interactions between SM and mouse strain and a high degree of heritability. These data imply that genetic background plays a role in the degree of muscle loss in SM and that more individualized programs should be developed for astronauts to protect their skeletal muscles against microgravity on long-term missions.

Identifiants

DOI: 10.1038/s41526-023-00334-8 PMID: 38040743 PMC: PMC10692100
pubmed: 38040743
doi: 10.1038/s41526-023-00334-8
pii: 10.1038/s41526-023-00334-8
pmc: PMC10692100
doi:

Types de publication

Journal Article

Langues

eng

Pagination

86

Subventions

Organisme : National Aeronautics and Space Administration (NASA)
ID : 80NSSC18K1473
Organisme : National Aeronautics and Space Administration (NASA)
ID : 80NSSC18K1473
Organisme : National Aeronautics and Space Administration (NASA)
ID : 80NSSC18K1473
Organisme : National Aeronautics and Space Administration (NASA)
ID : 80NSSC18K1473
Organisme : National Aeronautics and Space Administration (NASA)
ID : 80NSSC18K1473
Organisme : National Aeronautics and Space Administration (NASA)
ID : 80NSSC18K1473

Informations de copyright

© 2023. The Author(s).

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Auteurs

Yasmina Zeineddine (Y)

Department of Biomedical Engineering, Virginia Commonwealth University, Richmond, VA, USA.
ORCID: 0009-0005-2427-6786

Michael A Friedman (MA)

Department of Biomedical Engineering, Virginia Commonwealth University, Richmond, VA, USA.
ORCID: 0000-0001-8279-0306

Evan G Buettmann (EG)

Department of Biomedical Engineering, Virginia Commonwealth University, Richmond, VA, USA.
ORCID: 0000-0001-8439-477X

Lovell B Abraham (LB)

Department of Biomedical Engineering, Virginia Commonwealth University, Richmond, VA, USA.

Gabriel A Hoppock (GA)

Department of Biomedical Engineering, Virginia Commonwealth University, Richmond, VA, USA.

Henry J Donahue (HJ)

Department of Biomedical Engineering, Virginia Commonwealth University, Richmond, VA, USA. hjdonahue@vcu.edu.
ORCID: 0000-0002-9238-4157

Classifications MeSH