Literature DB >> 34358402

miR-183 and miR-96 orchestrate both glucose and fat utilization in skeletal muscle.

Hui Wang1, Mei Ma1, Yuying Li1, Jinxin Liu2, Chao Sun1, Shengnan Liu1, Yiruo Ma1, Ying Yan1, Zhili Tang1, Siyi Shen1, Jing Yu1, Yuting Wu1, Jingjing Jiang3, Li Wang2, Zi-Bing Jin4, Hao Ying1,5, Yan Li2.   

Abstract

Our knowledge of the coordination of fuel usage in skeletal muscle is incomplete. Whether and how microRNAs are involved in the substrate selection for oxidation is largely unknown. Here we show that mice lacking miR-183 and miR-96 have enhanced muscle oxidative phenotype and altered glucose/lipid homeostasis. Moreover, loss of miR-183 and miR-96 results in a shift in substrate utilization toward fat relative to carbohydrates in mice. Mechanistically, loss of miR-183 and miR-96 suppresses glucose utilization in skeletal muscle by increasing PDHA1 phosphorylation via targeting FoxO1 and PDK4. On the other hand, loss of miR-183 and miR-96 promotes fat usage in skeletal muscle by enhancing intramuscular lipolysis via targeting FoxO1 and ATGL. Thus, our study establishes miR-183 and miR-96 as master coordinators of fuel selection and metabolic homeostasis owing to their capability of modulating both glucose utilization and fat catabolism. Lastly, we show that loss of miR-183 and miR-96 can alleviate obesity and improve glucose metabolism in high-fat diet-induced mice, suggesting that miR-183 and miR-96 may serve as therapeutic targets for metabolic diseases.
© 2021 The Authors.

Entities:  

Keywords:  fuel metabolism; lipolysis; metabolic flexibility; miR-183/96; skeletal muscle

Mesh:

Substances:

Year:  2021        PMID: 34358402      PMCID: PMC8419684          DOI: 10.15252/embr.202052247

Source DB:  PubMed          Journal:  EMBO Rep        ISSN: 1469-221X            Impact factor:   9.071


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