由瞬时受体电位阳离子通道亚家族M成员7（TRPM7）介导的镁离子内流触发肌肉干细胞激活的起始过程。

Mg influx mediated by TRPM7 triggers the initiation of muscle stem cell activation.

作者信息

Hirano Kotaro, Nakabayashi Chika, Sasaki Mao, Suzuki Miki, Aoyagi Yuta, Tanaka Kaori, Murakami Akira, Tsuchiya Masaki, Umemoto Eiji, Takabayashi Shuji, Kitajima Yasuo, Ono Yusuke, Matsukawa Takehisa, Matsushita Masayuki, Ohkawa Yasuyuki, Mori Yasuo, Hara Yuji

机构信息

School of Pharmaceutical Sciences, University of Shizuoka, Shizuoka 422-8526, Japan.

Faculty of Pharmacy, Laboratory of Hygienic Chemistry, Juntendo University, Chiba 279-0013, Japan.

出版信息

Sci Adv. 2025 Apr 4;11(14):eadu0601. doi: 10.1126/sciadv.adu0601.

DOI:10.1126/sciadv.adu0601

PMID:40184450

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11970462/

Abstract

Muscle satellite cells (MuSCs) respond immediately to environmental cues upon skeletal muscle injuries. Despite decades of research into muscle regeneration, the specific molecular factors that trigger the transition of MuSCs from a quiescent to an active state remain largely unidentified. Here, we identify transient receptor potential melastatin 7 (TRPM7), an Mg-permeable ion channel, as a critical regulator of MuSC activation. deletion in MuSCs reduced Mg influx, impairing myofiber regeneration and leading to decreased MuSC numbers and cell cycle arrest during regeneration. These changes were linked to disrupted mTOR signaling, which drives the transition of MuSCs from G to G phase. In addition, -deficient MuSCs exhibited impaired early responses, including quiescent projection retraction and AP-1 induction. Mg supplementation rescued these defects, restoring normal MuSC activation. Our findings reveal a previously unrecognized mechanism where Mg permeation through TRPM7 is essential for MuSC activation and efficient skeletal muscle regeneration, highlighting TRPM7 as a critical regulator of muscle repair.

摘要

肌肉卫星细胞（MuSCs）在骨骼肌损伤后会立即对环境信号做出反应。尽管对肌肉再生进行了数十年的研究，但触发MuSCs从静止状态转变为活跃状态的具体分子因子在很大程度上仍未明确。在这里，我们确定瞬时受体电位褪黑素7（TRPM7），一种镁离子通透离子通道，是MuSC激活的关键调节因子。MuSCs中的TRPM7缺失减少了镁离子内流，损害了肌纤维再生，并导致再生过程中MuSC数量减少和细胞周期停滞。这些变化与mTOR信号通路的破坏有关，mTOR信号通路驱动MuSCs从G期向G期转变。此外，TRPM7缺陷的MuSCs表现出早期反应受损，包括静止突起回缩和AP-1诱导。补充镁离子可挽救这些缺陷，恢复正常的MuSC激活。我们的研究结果揭示了一种以前未被认识的机制，即通过TRPM7的镁离子通透对于MuSC激活和有效的骨骼肌再生至关重要，突出了TRPM7作为肌肉修复的关键调节因子的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d435/11970462/0c5832094f9c/sciadv.adu0601-f1.jpg

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由瞬时受体电位阳离子通道亚家族M成员7（TRPM7）介导的镁离子内流触发肌肉干细胞激活的起始过程。

Mg influx mediated by TRPM7 triggers the initiation of muscle stem cell activation.

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