Abstract
The development of skeletal muscle is a complex process including myoblasts proliferation and differentiation. MicroRNAs (miRNAs) are small non-coding RNAs that regulate gene expression at post-transcriptional level. Increasing evidences indicate that miRNAs are important regulators in myogenic processes. Here, we reported that the expression of miR-10b-5p steadily decreased during myoblasts proliferation, but significantly increased during myoblasts differentiation. The over-expression of miR-10b-5p promoted myoblasts proliferation and blunted myofiber formation in C2C12 cells, while miR-10b-5p down-regulation showed an opposite result. At the same time, we observed that the down-regulation of nuclear factor of activated T-cells 5 (NFAT5) repressed the differentiation of C2C12 cells, and interestingly, miR-10b-5p could suppress NFAT5 expression. Luciferase activity assays confirmed that miR-10b-5p directly target the 3'-untranslated region (3'-UTR) of NFAT5. Overall, we proposed here a novel insight that miR-10b-5p regulates the proliferation and differentiation of C2C12 myoblasts, and the impact on myogenic differentiation is partly through targeting NFAT5. Abbreviations: NFAT5: nuclear factor of activated T-cells 5; Cyclin B: cycle protein B; Cyclin D1: cycle protein D1; Cyclin E: cycle protein E; CDK4: cyclin-dependent kinase 4; MyoD: myogenic differentiation antigen; MyoG: myogenin; Myf5: myogenic factor 5; MRF4: myogenic regulatory factor 4; MyHC: myosin heavy chain; AQP5: aquaporin-5; CACNA1C: calcium voltage-gated channel subunit alpha1 C; SRF: serum response factor; Pax7: paired box 7; KLF4: Kruppel-like factor 4; 3'-UTR: 3'-untranslated region; GM: growth medium; DM: differentiation medium.
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