Laboratory CarMeN; INSERM 1060; INRA 1235; INSA; University of Lyon; Faculté de Médecine Lyon-Sud; Oullins, France.
Centre Commun d'Imagerie de Laënnec (CeCIL); SFR Santé Lyon-Est; University of Lyon; Lyon, France.
Cell Cycle. 2014;13(1):78-89. doi: 10.4161/cc.26808. Epub 2013 Oct 23.
It has recently been established that exosomes can mediate intercellular cross-talk under normal and pathological conditions through the transfer of specific miRNAs. As muscle cells secrete exosomes, we addressed the question of whether skeletal muscle (SkM) exosomes contained specific miRNAs, and whether they could act as "endocrine signals" during myogenesis. We compared the miRNA repertoires found in exosomes released from C2C12 myoblasts and myotubes and found that 171 and 182 miRNAs were exported into exosomes from myoblasts and myotubes, respectively. Interestingly, some miRNAs were expressed at higher levels in exosomes than in their donor cells and vice versa, indicating a selectivity in the incorporation of miRNAs into exosomes. Moreover miRNAs from C2C12 exosomes were regulated during myogenesis. The predicted target genes of regulated exosomal miRNAs are mainly involved in the control of important signaling pathways for muscle cell differentiation (e.g., Wnt signaling pathway). We demonstrated that exosomes from myotubes can transfer small RNAs (C. elegans miRNAs and siRNA) into myoblasts. Moreover, we present evidence that exosome miRNAs secreted by myotubes are functionally able to silence Sirt1 in myoblasts. As Sirt1 regulates muscle gene expression and differentiation, our results show that myotube-exosome miRNAs could contribute to the commitment of myoblasts in the process of differentiation. Until now, myokines in muscle cell secretome provided a conceptual basis for communication between muscles. Here, we show that miRNA exosomal transfer would be a powerful means by which gene expression is orchestrated to regulate SkM metabolic homeostasis.
最近已经确定,外泌体可以通过特定 miRNA 的转移在正常和病理条件下介导细胞间的串扰。由于肌肉细胞分泌外泌体,我们提出了一个问题,即骨骼肌(SkM)外泌体是否含有特定的 miRNA,以及它们是否可以在肌发生过程中充当“内分泌信号”。我们比较了从 C2C12 成肌细胞和肌管释放的外泌体中发现的 miRNA 谱,发现 171 和 182 个 miRNA 分别从成肌细胞和肌管中被输出到外泌体中。有趣的是,一些 miRNA 在 exosomes 中的表达水平高于其供体细胞,反之亦然,这表明 miRNA 被选择性地纳入 exosomes。此外,C2C12 外泌体中的 miRNA 在肌发生过程中受到调节。受调节的 exosomal miRNA 的预测靶基因主要涉及肌肉细胞分化的重要信号通路的控制(例如,Wnt 信号通路)。我们证明了肌管来源的外泌体可以将小 RNA(秀丽隐杆线虫 miRNA 和 siRNA)转移到成肌细胞中。此外,我们提供的证据表明,肌管分泌的外泌体 miRNA 能够在成肌细胞中沉默 Sirt1。由于 Sirt1 调节肌肉基因表达和分化,我们的结果表明,肌管外泌体 miRNA 可以促进成肌细胞在分化过程中的分化。到目前为止,肌肉细胞分泌组中的肌因子为肌肉之间的通讯提供了概念基础。在这里,我们表明 miRNA 外泌体转移将是一种强大的手段,可以协调基因表达以调节 SkM 代谢稳态。
