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miR-22-3p regulates muscle fiber-type conversion through inhibiting AMPK/SIRT1/PGC-1α pathway

Wanxue Wen, Xiaoling Chen, Zhiqing Huang, Daiwen Chen, Ping Zheng, Jun He, Hong Chen, Jie Yu, Yuheng Luo, Bing Yu

2020Animal Biotechnology24 citationsDOI

Abstract

MicroRNAs (miRNAs) are a class of conserved non-coding RNAs that are widely regarded as important regulators in a variety of biological processes. Increasing evidence has revealed that skeletal muscle fiber-type conversion is regulated by miRNAs, but the molecular mechanism is still not fully understood. In this study, we confirmed the role of miR-22-3p on skeletal muscle fiber-type conversion and investigated its potential mechanism in C2C12 myotubes. Here, we found that the miR-22-3p mimics inhibited the expressions of myosin heavy chain I (MyHC I), MyHC IIa and promoted the expression of MyHC IIb, while miR-22-3p inhibitor got inverse results. miR-22-3p mimics also downregulated phosphorylated AMPK, SIRT1 and PGC-1ɑ protein levels, which control the expression of oxidative fiber-related genes. Furthermore, Compound C (AMPK inhibitor) eliminated the effect of miR-22-3p inhibitor on MyHC I, MyHC IIa and MyHC IIb expressions. However, AICAR (AMPK activator) also abolished the effect of miR-22-3p mimics on MyHC I, MyHC IIa and MyHC IIb expressions. Collectively, our results suggest that miR-22-3p regulates skeletal muscle fiber-type conversion through inhibiting AMPK/SIRT1/PGC-1ɑ signaling pathway.

Topics & Concepts

AMPKMyogenesisSkeletal muscleMyosinBiologyCell biologyActivator (genetics)microRNAEndocrinologyPhosphorylationGeneBiochemistryProtein kinase AMicroRNA in disease regulationSirtuins and Resveratrol in MedicineAdipose Tissue and Metabolism
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