尽管存在细胞内阳离子的变化,但维持线粒体 NAD+ 的平衡是预防热诱导骨骼肌损伤的关键。

Yifan Chen, Tianzheng Yu, Patricia A Deuster
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摘要

线粒体功能障碍与热诱导的骨骼肌损伤有关,其潜在机制仍不清楚。有证据表明,包括二价阳离子和腺嘌呤核苷酸在内的细胞离子和分子参与了线粒体功能的调节。在这项研究中,我们检测了小鼠 C2C12 肌母细胞和骨骼肌中的 Ca2+、Mg2+ 和 NAD+ 水平对热暴露的反应。在热暴露过程中,线粒体 Ca2+ 水平显著升高,而细胞膜 C2+ 水平保持不变。与对照组小鼠相比,受热小鼠骨骼肌线粒体 Ca2+ 水平高出 28%。两组小鼠的细胞膜 Ca2+ 没有发生变化。受热后,C2C12 肌细胞的细胞膜和线粒体 Mg2+ 水平分别降低了 47% 和 23%,小鼠骨骼肌的细胞膜和线粒体 Mg2+ 水平分别降低了 51% 和 44%。此外,受热后,C2C12 肌母细胞和小鼠骨骼肌线粒体中的 NAD+ 水平分别降低了 32% 和 26%。用 NAD+ 前体烟酰胺核苷(NR)处理可部分防止热诱导的 NAD+ 消耗。此外,NR 还能明显减少 C2C12 肌细胞和小鼠骨骼肌中因热而增加的线粒体裂变、线粒体去极化和细胞凋亡。没有观察到 NR 对热引起的细胞内 Ca2+ 和 Mg2+ 水平变化的影响。本研究提供了体外和体内证据,证明急性热应激会导致线粒体 Ca2+、Mg2+ 和 NAD+ 平衡的改变。我们的研究结果表明,线粒体 NAD+> 平衡是预防热引起的骨骼肌损伤的治疗靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Maintaining mitochondrial NAD+ homeostasis is key for heat-induced skeletal muscle injury prevention despite presence of intracellular cation alterations.

Mitochondrial dysfunction is implicated in heat-induced skeletal muscle (SKM) injury and its underlying mechanisms remain unclear. Evidence suggests that cellular ions and molecules, including divalent cations and adenine nucleotides, are involved in the regulation of mitochondrial function. In this study, we examined Ca2+, Mg2+, and NAD+ levels in mouse C2C12 myoblasts and SKM in response to heat exposure. During heat exposure, mitochondrial Ca2+ levels increased significantly, whereas cytosolic Ca2+ levels remained unaltered. The mitochondrial Ca2+ levels in the SKM of heat-exposed mice were 28% higher compared to control mice. No changes in cytosolic Ca2+ were detected between the two groups. Following heat exposure, cytosolic and mitochondrial Mg2+ levels were reduced by 47% and 23% in C2C12 myoblasts, and by 51% and 44% in mouse SKMs, respectively. In addition, heat exposure decreased mitochondrial NAD+ levels by 32% and 26% in C2C12 myoblasts and mouse SKMs, respectively. Treatment with the NAD+ precursor nicotinamide riboside (NR) partially prevented heat-induced depletion of NAD+. Additionally, NR significantly reduced heat-increased mitochondrial fission, mitochondrial depolarization, and apoptosis in C2C12 myoblasts and mouse SKMs. No effects of NR on heat-induced changes in intracellular Ca2+ and Mg2+ levels were observed. This study provides in vitro and in vivo evidence that acute heat stress causes alterations in mitochondrial Ca2+, Mg2+, and NAD+ homeostasis. Our results suggest mitochondrial NAD+ homeostasis as a therapeutic target for the prevention of heat-induced SKM injury.

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