Endurance exercise training reinforces muscular strength with improvements in mitochondrial oxidative capacity, lysosome reformation, and myogenic differentiation against doxorubicin-induced skeletal muscle wasting in mice.

Physical activity and nutrition Pub Date : 2023-03-01 DOI:10.20463/pan.2023.0010

Insu Kwon

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引用次数: 1

Abstract

Purpose: Doxorubicin (DOX) is a chemotherapeutic medication broadly used to treat diverse cancers. However, chronic DOX chemotherapy can cause myotoxicity and muscle atrophy. Endurance exercise (EXE) is used to prevent negative muscle excitation. Based on emerging evidence, this study investigated the challenges that occur in skeletal muscle quantity, quality, and metabolic determinants through autophagy, myogenic regulatory factors (MRF), antioxidant enzymes, and both the AMPK and AKT/mTOR pathways.

Methods: Male C57BL/6J adult mice were divided into four groups after one week of acclimation: sedentary (SED) plus saline (SAL)-receiving (SED-SAL), EXE plus SAL-receiving (EXE-SAL), SED plus DOX-receiving (SED-DOX), and EXE plus DOX-receiving (EXEDOX) groups. All mice were intraperitoneally inoculated with either SAL or DOX (5 mg/kg, every 2 weeks) for 8 weeks, while a treadmill running EXE was performed. Body weight, muscle weight, and muscle strength were measured, and the red portions of the gastrocnemius muscle were excised for biochemical analysis.

Results: Chronic DOX administration deteriorated body composition by decreasing body and absolute muscle weights, whereas EXE reinforced a grip strength per body weight. Although DOX inhibited BECN1 expression, EXE enhanced CS, LC3-I, LC3-II, and LAMP levels. Moreover, DOX did not interrupt MRF functions, but EXE improved MYOD without altering SOD1 or SOD2 expression. However, neither the AMPK nor the AKT/mTOR signaling pathways were associated with either DOX-receiving or EXE training.

Conclusion: DOX chemotherapy-induced muscle wasting is associated with autophagy dysregulation. However, long-term aerobic EXE training enhances muscular strength with an increase in mitochondrial oxidative capacity, lysosome formation, and myogenic differentiation.

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耐力运动训练通过改善线粒体氧化能力、溶酶体重组和抗阿霉素诱导的小鼠骨骼肌萎缩的肌源性分化来增强肌肉力量。

目的:多柔比星(DOX)是一种广泛用于治疗多种癌症的化疗药物。然而，慢性DOX化疗可引起肌毒性和肌肉萎缩。耐力运动(EXE)是用来防止肌肉负兴奋的。基于新出现的证据，本研究通过自噬、肌生成调节因子(MRF)、抗氧化酶以及AMPK和AKT/mTOR途径研究了骨骼肌数量、质量和代谢决定因素所面临的挑战。方法:雄性C57BL/6J成年小鼠经1周驯化后分为4组:久坐(SED) +生理盐水(SAL)摄取组(SED-SAL)、EXE + SAL摄取组(EXE-SAL)、SED + dox摄取组(SED- dox)和EXE + dox摄取组(EXEDOX)。所有小鼠腹腔注射SAL或DOX (5 mg/kg，每2周)，持续8周，同时在跑步机上运行EXE。测量体重、肌肉重量和肌力，切除腓肠肌红色部分进行生化分析。结果:慢性DOX通过降低身体和绝对肌肉重量来恶化身体组成，而EXE则增强了每体重的握力。虽然DOX抑制BECN1表达，但EXE增强CS、LC3-I、LC3-II和LAMP水平。此外，DOX没有中断MRF功能，但EXE改善了MYOD，但没有改变SOD1或SOD2的表达。然而，AMPK和AKT/mTOR信号通路都与dox -接收或EXE训练无关。结论:DOX化疗诱导的肌肉萎缩与自噬失调有关。然而，长期有氧EXE训练通过增加线粒体氧化能力、溶酶体形成和成肌分化来增强肌肉力量。

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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来源期刊

Physical activity and nutrition

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2.00

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