Skeletal muscle myosin heavy chain fragmentation as a potential marker of protein degradation in response to resistance training and disuse atrophy

IF 2.6 4区 医学 Q2 PHYSIOLOGY Experimental Physiology Pub Date : 2024-08-24 DOI:10.1113/EP092093
Daniel L. Plotkin, Madison L. Mattingly, Derick A. Anglin, J. Max Michel, Joshua S. Godwin, Mason C. McIntosh, Nicholas J. Kontos, João G. A. Bergamasco, Maíra C. Scarpelli, Vitor Angleri, Lemuel W. Taylor, Darryn S. Willoughby, C. Brooks Mobley, Andreas N. Kavazis, Carlos Ugrinowitsch, Cleiton A. Libardi, Michael D. Roberts
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Abstract

We examined how resistance exercise (RE), cycling exercise and disuse atrophy affect myosin heavy chain (MyHC) protein fragmentation. The 1boutRE study involved younger men (n = 8; 5 ± 2 years of RE experience) performing a lower body RE bout with vastus lateralis (VL) biopsies being obtained prior to and acutely following exercise. With the 10weekRT study, VL biopsies were obtained in 36 younger adults before and 24 h after their first/naïve RE bout. Participants also engaged in 10 weeks of resistance training and donated VL biopsies before and 24 h after their last RE bout. VL biopsies were also examined in an acute cycling study (n = 7) and a study involving 2 weeks of leg immobilization (n = 20). In the 1boutRE study, fragmentation of all MyHC isoforms (MyHCTotal) increased 3 h post-RE (∼200%, P = 0.018) and returned to pre-exercise levels by 6 h post-RE. Interestingly, a greater magnitude increase in MyHC type IIa versus I isoform fragmentation occurred 3 h post-RE (8.6 ± 6.3-fold vs. 2.1 ± 0.7-fold, P = 0.018). In 10weekRT participants, the first/naïve and last RE bouts increased MyHCTotal fragmentation 24 h post-RE (+65% and +36%, < 0.001); however, the last RE bout response was attenuated compared to the first bout (P = 0.045). Although cycling exercise did not alter MyHCTotal fragmentation, ∼8% VL atrophy with 2 weeks of leg immobilization increased MyHCTotal fragmentation (∼108%, < 0.001). Mechanistic C2C12 myotube experiments indicated that MyHCTotal fragmentation is likely due to calpain proteases. In summary, RE and disuse atrophy increase MyHC protein fragmentation. Research into how ageing and disease-associated muscle atrophy affect these outcomes is needed.

Highlights

  • What is the central question of this study?

    How different exercise stressors and disuse affect skeletal muscle myosin heavy chain fragmentation.

  • What is the main finding and its importance?

    This investigation is the first to demonstrate that resistance exercise and disuse atrophy lead to skeletal muscle myosin heavy chain protein fragmentation in humans. Mechanistic in vitro experiments provide additional evidence that MyHC fragmentation occurs through calpain proteases.

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骨骼肌肌球蛋白重链片段是抗阻力训练和废用性萎缩时蛋白质降解的潜在标志。
我们研究了阻力运动(RE)、骑自行车运动和废用性萎缩如何影响肌球蛋白重链(MyHC)蛋白质片段。在 1boutRE 研究中,年轻男性(n = 8;具有 5 ± 2 年的阻力运动经验)进行了一次下半身阻力运动,并在运动前和运动后进行了阔筋膜(VL)活检。在为期 10 周的 RT 研究中,36 名年轻成人在首次/初次参加 RE 运动前和运动后 24 小时内接受了阔筋膜活检。参与者还进行了为期 10 周的阻力训练,并在最后一次 RE 运动前和运动后 24 小时捐献了 VL 活检组织。在一项急性骑自行车研究(n = 7)和一项涉及腿部固定 2 周的研究(n = 20)中,也对 VL 活检组织进行了检查。在1次RE研究中,所有MyHC同工酶(MyHCTotal)的片段化在RE后3小时内增加(200%,P = 0.018),并在RE后6小时内恢复到运动前水平。有趣的是,RE 后 3 小时,MyHC IIa 型与 I 型同工酶片段的增加幅度更大(8.6 ± 6.3 倍 vs. 2.1 ± 0.7 倍,P = 0.018)。在10周RT参与者中,第一次/初次和最后一次RE会增加RE后24小时的MyHCT总片段(+65%和+36%,P 总片段,∼8% VL萎缩与2周的腿部固定会增加MyHCT总片段(∼108%,P 2C12肌管实验表明,MyHCT总片段可能是由于钙蛋白酶引起的。总之,RE和废用性萎缩会增加MyHC蛋白的片段化。需要研究老化和疾病相关肌肉萎缩如何影响这些结果。重点:本研究的核心问题是什么?不同的运动压力和废用如何影响骨骼肌肌球蛋白重链片段。主要发现及其重要性是什么?这项研究首次证明了阻力运动和废用性萎缩会导致人体骨骼肌肌球蛋白重链蛋白质碎裂。体外机理实验提供了更多证据,证明肌球蛋白重链碎裂是通过钙蛋白酶发生的。
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来源期刊
Experimental Physiology
Experimental Physiology 医学-生理学
CiteScore
5.10
自引率
3.70%
发文量
262
审稿时长
1 months
期刊介绍: Experimental Physiology publishes research papers that report novel insights into homeostatic and adaptive responses in health, as well as those that further our understanding of pathophysiological mechanisms in disease. We encourage papers that embrace the journal’s orientation of translation and integration, including studies of the adaptive responses to exercise, acute and chronic environmental stressors, growth and aging, and diseases where integrative homeostatic mechanisms play a key role in the response to and evolution of the disease process. Examples of such diseases include hypertension, heart failure, hypoxic lung disease, endocrine and neurological disorders. We are also keen to publish research that has a translational aspect or clinical application. Comparative physiology work that can be applied to aid the understanding human physiology is also encouraged. Manuscripts that report the use of bioinformatic, genomic, molecular, proteomic and cellular techniques to provide novel insights into integrative physiological and pathophysiological mechanisms are welcomed.
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