Abstract

BackgroundThe insulin-like growth factor (IGF) signaling pathway has long been established as playing critical roles in skeletal muscle development. However, the underlying regulatory mechanism is poorly understood. Recently, a large family of small RNAs, named microRNAs (miRNAs), has been identified as key regulators for many developmental processes. Because miRNAs participate in the regulation of various signaling pathways, we hypothesized that miRNAs may be involved in the regulation of IGF signaling in skeletal myogenesis.Methodology/Principal FindingsIn the present study, we determined that the cell-surface receptor IGF-1R is directly regulated by a muscle-specific miRNA, microRNA-133 (miR-133). A conserved and functional binding site for miR-133 was identified in the 3′untranslated region (3′UTR) of IGF-1R. During differentiation of C2C12 myoblasts, IGF-1R protein, but not messenger RNA (mRNA) expression, was gradually reduced, concurrent with the upregulation of miR-133. Overexpression of miR-133 in C2C12 cells significantly suppressed IGF-1R expression at the posttranscriptional level. We also demonstrated that both overexpression of miR-133 and knockdown of IGF-1R downregulated the phosphorylation of Akt, the central mediator of the PI3K/Akt signaling pathway. Furthermore, upregulation of miR-133 during C2C12 differentiation was significantly accelerated by the addition of IGF-1. Mechanistically, we found that the expression of myogenin, a myogenic transcription factor reported to transactivate miR-133, was increased by IGF-1 stimulation.Conclusion/SignificanceOur results elucidate a negative feedback circuit in which IGF-1-stimulated miR-133 in turn represses IGF-1R expression to modulate the IGF-1R signaling pathway during skeletal myogenesis. These findings also suggest that miR-133 may be a potential therapeutic target in muscle diseases.

Highlights

  • Skeletal muscle development is orchestrated by myoblast proliferation, withdrawal from the cell cycle, differentiation and subsequent fusion into multinuclear myotubes

  • This study identified a novel function of miR-133 during skeletal myogenesis of negative regulation of insulin-like growth factor (IGF)-1R and the phosphatidylinositol 3-kinase (PI3K)/Akt signaling pathway

  • The expression level of IGF-1 receptor (IGF-1R) is critical for the regulation of muscle development because it directly influences the intracellular responsiveness of muscle cells to the extracellular IGF signal

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Summary

Introduction

Skeletal muscle development (myogenesis) is orchestrated by myoblast proliferation, withdrawal from the cell cycle, differentiation and subsequent fusion into multinuclear myotubes. The insulin-like growth factor (IGF) signaling pathway is unique because it promotes virtually every biological process, including proliferation, differentiation, growth and survival during embryonic and postnatal muscle development [6]. IGF-1R becomes autophosphorylated and induces the phosphatidylinositol 3-kinase (PI3K)/ Akt pathway, which is integral to the processes of skeletal muscle development and growth [7,8]. Tight control of the IGF-1R signaling pathway is important for normal muscle cell development. The regulatory mechanisms of IGF-1R signaling during muscle development remain unclear. The insulin-like growth factor (IGF) signaling pathway has long been established as playing critical roles in skeletal muscle development. Because miRNAs participate in the regulation of various signaling pathways, we hypothesized that miRNAs may be involved in the regulation of IGF signaling in skeletal myogenesis

Methods
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Conclusion

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