The gut microbiota influences skeletal muscle mass and function in mice

骨骼肌 肠道菌群 功能(生物学) 生物 细胞生物学 化学 解剖 免疫学
作者
Shawon Lahiri,Hyejin Kim,Isabel García‐Pérez,Musarrat Maisha Reza,Katherine A. Martin,Parag Kundu,Laura M. Cox,Joel Selkrig,Joram M. Posma,Hongbo Zhang,Parasuraman Padmanabhan,Catherine Moret,Balázs Gulyás,Martin J. Blaser,Johan Auwerx,Elaine Holmes,Jeremy K. Nicholson,Walter Wahli,Sven Pettersson
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science]
卷期号:11 (502) 被引量:524
标识
DOI:10.1126/scitranslmed.aan5662
摘要

The functional interactions between the gut microbiota and the host are important for host physiology, homeostasis, and sustained health. We compared the skeletal muscle of germ-free mice that lacked a gut microbiota to the skeletal muscle of pathogen-free mice that had a gut microbiota. Compared to pathogen-free mouse skeletal muscle, germ-free mouse skeletal muscle showed atrophy, decreased expression of insulin-like growth factor 1, and reduced transcription of genes associated with skeletal muscle growth and mitochondrial function. Nuclear magnetic resonance spectrometry analysis of skeletal muscle, liver, and serum from germ-free mice revealed multiple changes in the amounts of amino acids, including glycine and alanine, compared to pathogen-free mice. Germ-free mice also showed reduced serum choline, the precursor of acetylcholine, the key neurotransmitter that signals between muscle and nerve at neuromuscular junctions. Reduced expression of genes encoding Rapsyn and Lrp4, two proteins important for neuromuscular junction assembly and function, was also observed in skeletal muscle from germ-free mice compared to pathogen-free mice. Transplanting the gut microbiota from pathogen-free mice into germ-free mice resulted in an increase in skeletal muscle mass, a reduction in muscle atrophy markers, improved oxidative metabolic capacity of the muscle, and elevated expression of the neuromuscular junction assembly genes Rapsyn and Lrp4 Treating germ-free mice with short-chain fatty acids (microbial metabolites) partly reversed skeletal muscle impairments. Our results suggest a role for the gut microbiota in regulating skeletal muscle mass and function in mice.
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