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SMN promotes mitochondrial metabolic maturation during myogenesis by regulating the MYOD-miRNA axis

Akihiro Ikenaka, Yohko Kitagawa, Michiko Yoshida, Chuang‐Yu Lin, Akira Niwa, Tatsutoshi Nakahata, Megumu K. Saito

2023Life Science Alliance21 citationsDOIOpen Access PDF

Abstract

gene. Although the primary cause of progressive muscle atrophy in SMA has classically been considered the degeneration of motor neurons, recent studies have indicated a skeletal muscle-specific pathological phenotype such as impaired mitochondrial function and enhanced cell death. Here, we found that the down-regulation of SMN causes mitochondrial dysfunction and subsequent cell death in in vitro models of skeletal myogenesis with both a murine C2C12 cell line and human induced pluripotent stem cells. During myogenesis, SMN binds to the upstream genomic regions of MYOD1 and microRNA (miR)-1 and miR-206. Accordingly, the loss of SMN down-regulates these miRs, whereas supplementation of the miRs recovers the mitochondrial function, cell survival, and myotube formation of SMN-deficient C2C12, indicating the SMN-miR axis is essential for myogenic metabolic maturation. In addition, the introduction of the miRs into ex vivo muscle stem cells derived from Δ7-SMA mice caused myotube formation and muscle contraction. In conclusion, our data revealed novel transcriptional roles of SMN during myogenesis, providing an alternative muscle-oriented therapeutic strategy for SMA patients.

Topics & Concepts

MyogenesisMyoDSpinal muscular atrophyBiologyMyocyteCell biologySkeletal muscleSMN1Induced pluripotent stem cellC2C12Motor neuronEmbryonic stem cellEndocrinologyGeneticsNeuroscienceSpinal cordGeneNeurogenetic and Muscular Disorders ResearchRNA modifications and cancerRNA Research and Splicing
SMN promotes mitochondrial metabolic maturation during myogenesis by regulating the MYOD-miRNA axis | Litcius