miRNA-501 调控肌肉再生过程中的肌生成素/CD74 肌前体细胞。
microRNA-501 controls myogenin/CD74 myogenic progenitor cells during muscle regeneration.
机构信息
Division of Endocrinology, Diabetes, and Clinical Nutrition, University Hospital Zurich, 8091, Zurich, Switzerland; Life Science Zurich Graduate School, Biomedicine, University of Zurich, 8057, Zurich, Switzerland.
Division of Endocrinology, Diabetes, and Clinical Nutrition, University Hospital Zurich, 8091, Zurich, Switzerland.
出版信息
Mol Metab. 2023 May;71:101704. doi: 10.1016/j.molmet.2023.101704. Epub 2023 Mar 11.
OBJECTIVE
Skeletal muscle regeneration is markedly impaired during aging. How adult muscle stem cells contribute to this decrease in regenerative capacity is incompletely understood. We investigated mechanisms of age-related changes in myogenic progenitor cells using the tissue-specific microRNA 501.
METHODS
Young and old C57Bl/6 mice were used (3 months or 24 months of age, respectively) with or without global or tissue-specific genetic deletion of miR-501. Muscle regeneration was induced using intramuscular cardiotoxin injection or treadmill exercise and analysed using single cell and bulk RNA sequencing, qRT-PCR and immunofluorescence. Muscle fiber damage was assessed with Evan`s blue dye (EBD). In vitro analysis was performed in primary muscle cells obtained from mice and humans.
RESULTS
Single cell sequencing revealed myogenic progenitor cells in miR-501 knockout mice at day 6 after muscle injury that are characterized by high levels of myogenin and CD74. In control mice these cells were less in number and already downregulated after day 3 of muscle injury. Muscle from knockout mice had reduced myofiber size and reduced myofiber resilience to injury and exercise. miR-501 elicits this effect by regulating sarcomeric gene expression through its target gene estrogen-related receptor gamma (Esrrg). Importantly, in aged skeletal muscle where miR-501 was significantly downregulated and its target Esrrg significantly upregulated, the number of myog/CD74 cells during regeneration was upregulated to similar levels as observed in 501 knockout mice. Moreover, myog/CD74-aged skeletal muscle exhibited a similar decrease in the size of newly formed myofibers and increased number of necrotic myofibers after injury as observed in mice lacking miR-501.
CONCLUSIONS
miR-501 and Esrrg are regulated in muscle with decreased regenerative capacity and loss of miR-501 is permissive to the appearance of CD74 myogenic progenitors. Our data uncover a novel link between the metabolic transcription factor Esrrg and sarcomere formation and demonstrate that stem cell heterogeneity in skeletal muscle during aging is under miRNA control. Targeting Esrrg or myog/CD74 progenitor cells might improve fiber size and myofiber resilience to exercise in aged skeletal muscle.
目的
骨骼肌再生在衰老过程中明显受损。成年肌肉干细胞如何导致这种再生能力下降尚不完全清楚。我们使用组织特异性 microRNA 501 研究了与年龄相关的成肌祖细胞变化的机制。
方法
使用 3 个月或 24 个月大的 C57Bl/6 小鼠(分别为年轻和老年),进行或不进行 microRNA 501 的整体或组织特异性基因缺失。使用肌肉内鬼笔环肽注射或跑步机运动诱导肌肉再生,并使用单细胞和批量 RNA 测序、qRT-PCR 和免疫荧光进行分析。使用 Evan`s 蓝染料(EBD)评估肌肉纤维损伤。在从小鼠和人获得的原代肌肉细胞中进行体外分析。
结果
单细胞测序显示,在肌肉损伤后第 6 天,miR-501 敲除小鼠中的成肌祖细胞以高水平的肌球蛋白重链和 CD74 为特征。在对照小鼠中,这些细胞数量较少,并且在肌肉损伤后第 3 天已经下调。敲除小鼠的肌肉纤维尺寸减小,对损伤和运动的纤维弹性减小。miR-501 通过其靶基因雌激素相关受体γ(Esrrg)调节肌节基因表达来产生这种效应。重要的是,在 miR-501 显著下调且其靶基因 Esrrg 显著上调的老年骨骼肌中,再生过程中成肌/CD74 细胞的数量上调到与在 miR-501 敲除小鼠中观察到的类似水平。此外,miR-501 缺失小鼠中观察到的新生肌纤维尺寸减小和损伤后坏死肌纤维数量增加,在缺乏 miR-501 的老年骨骼肌中成肌/CD74 中也观察到类似的变化。
结论
miR-501 和 Esrrg 在再生能力降低的肌肉中受到调节,miR-501 的缺失允许 CD74 成肌祖细胞出现。我们的数据揭示了代谢转录因子 Esrrg 与肌节形成之间的新联系,并证明了衰老过程中骨骼肌中干细胞异质性受 miRNA 控制。针对 Esrrg 或成肌/CD74 祖细胞可能会改善老年骨骼肌中的纤维大小和肌纤维对运动的弹性。
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