Reduced adenosine diphosphate sensitivity in skeletal muscle mitochondria increases reactive oxygen species production in mouse models of aging and oxidative stress but not denervation.

JCSM rapid communications Pub Date : 2021-01-01 Epub Date: 2020-12-28 DOI:10.1002/rco2.29

Gavin Pharaoh, Jacob Brown, Rojina Ranjit, Zoltan Ungvari, Holly Van Remmen

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Abstract

Background: Mitochondrial bioenergetics are sensitive to adenosine diphosphate (ADP) concentration. Reactive oxygen species (ROS) production and respiration [oxygen consumption rate (OCR)] are altered at physiological ADP concentrations (i.e. ADP insensitivity) in aged human muscle. Here, we investigate ADP sensitivity in mouse muscle mitochondria.

Methods: We measured OCR and ROS production in permeabilized gastrocnemius fibres using an ADP titration protocol and the Oroboros O2k respirometer and fluorometer. We measured changes in ADP sensitivity in muscle from mice at different ages, after sciatic nerve transection (denervation), and in response to increased oxidative stress (Sod1 ^-/- mice). Further, we asked whether the mitochondrial-targeted peptide SS-31 can modulate ADP insensitivity and contractile function in the Sod1 ^-/- mouse model.

Results: Reduced ADP sensitivity is associated with increases in mitochondrial ROS production in aged (62%) and Sod1 ^-/- (33%) mice. The maximal capacity to produce ROS does not increase with age, and there is no effect of age on ADP sensitivity for OCR in mouse gastrocnemii. Denervation does not induce ADP insensitivity for either ROS generation or OCR. Treatment of Sod1 ^-/- mice with SS-31 increases ADP sensitivity for both OCR and ROS, decreases maximal ROS production (^~40%), and improves resistance to muscle fatigue.

Conclusions: Adenosine diphosphate sensitivity for ROS production decreases in aged mouse gastrocnemius muscle fibres, although aged mice do not exhibit a difference in OCR. Denervation does not induce ADP insensitivity; however, insensitivity to ADP is induced in a model of oxidative stress. ADP insensitivity could contribute to muscle fatigue, and SS-31 may be the first drug capable of targeting this aging phenotype.

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在衰老和氧化应激小鼠模型中，骨骼肌线粒体中二磷酸腺苷敏感性的降低会增加活性氧的产生，但不会导致神经紧张。

背景：线粒体生物能对二磷酸腺苷（ADP）浓度很敏感。在人体老化的肌肉中，活性氧（ROS）的产生和呼吸[耗氧率（OCR）]在生理 ADP 浓度下会发生改变（即 ADP 不敏感）。在此，我们研究了小鼠肌肉线粒体对 ADP 的敏感性：方法：我们使用 ADP 滴定方案和 Oroboros O2k 呼吸计和荧光计测量透化腓肠肌纤维的 OCR 和 ROS 生成。我们测量了不同年龄小鼠、坐骨神经切断（去神经支配）后小鼠以及氧化应激增加时（Sod1 -/-小鼠）小鼠肌肉中 ADP 敏感性的变化。此外，我们还询问了线粒体靶向肽 SS-31 是否能调节 Sod1 -/- 小鼠模型的 ADP 不敏感性和收缩功能：结果：在老龄小鼠（62%）和 Sod1 -/-小鼠（33%）中，ADP 敏感性的降低与线粒体 ROS 生成的增加有关。产生 ROS 的最大能力不会随着年龄的增长而增加，而且年龄对小鼠胃肠对 OCR 的 ADP 敏感性没有影响。去神经支配不会诱导对 ROS 生成或 OCR 的 ADP 不敏感。用 SS-31 处理 Sod1 -/- 小鼠可提高 ADP 对 OCR 和 ROS 的敏感性，减少最大 ROS 产生量（约 40%），并提高肌肉抗疲劳能力：结论：老龄小鼠腓肠肌纤维对 ROS 生成的二磷酸腺苷敏感性降低，尽管老龄小鼠在 OCR 方面没有表现出差异。神经支配不会诱导对二磷酸腺苷不敏感，但在氧化应激模型中会诱导对二磷酸腺苷不敏感。ADP 不敏感可能会导致肌肉疲劳，而 SS-31 可能是第一种能够针对这种衰老表型的药物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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JCSM rapid communications

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10 weeks