不同的抗阻运动负荷范式同样影响肌肉生长抑制素相关靶点和 mTORC1 信号标记物的骨骼肌基因表达模式。

Different Resistance Exercise Loading Paradigms Similarly Affect Skeletal Muscle Gene Expression Patterns of Myostatin-Related Targets and mTORC1 Signaling Markers.

机构信息

School of Kinesiology, Auburn University, Auburn, AL 36849, USA.

Center for Applied Health Sciences, Canfield, OH 44406, USA.

出版信息

Cells. 2023 Mar 15;12(6):898. doi: 10.3390/cells12060898.

DOI:10.3390/cells12060898

PMID:36980239

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10047349/

Abstract

Although transcriptome profiling has been used in several resistance training studies, the associated analytical approaches seldom provide in-depth information on individual genes linked to skeletal muscle hypertrophy. Therefore, a secondary analysis was performed herein on a muscle transcriptomic dataset we previously published involving trained college-aged men (n = 11) performing two resistance exercise bouts in a randomized and crossover fashion. The lower-load bout (30 Fail) consisted of 8 sets of lower body exercises to volitional fatigue using 30% one-repetition maximum (1 RM) loads, whereas the higher-load bout (80 Fail) consisted of the same exercises using 80% 1 RM loads. Vastus lateralis muscle biopsies were collected prior to (PRE), 3 h, and 6 h after each exercise bout, and 58 genes associated with skeletal muscle hypertrophy were manually interrogated from our prior microarray data. Select targets were further interrogated for associated protein expression and phosphorylation induced-signaling events. Although none of the 58 gene targets demonstrated significant bout x time interactions, ~57% (32 genes) showed a significant main effect of time from PRE to 3 h (15↑ and 17↓, < 0.01), and ~26% (17 genes) showed a significant main effect of time from PRE to 6 h (8↑ and 9↓, < 0.01). Notably, genes associated with the myostatin (9 genes) and mammalian target of rapamycin complex 1 (mTORC1) (9 genes) signaling pathways were most represented. Compared to mTORC1 signaling mRNAs, more MSTN signaling-related mRNAs (7 of 9) were altered post-exercise, regardless of the bout, and was the only mTORC1-associated mRNA that was upregulated following exercise. Phosphorylated (phospho-) p70S6K (Thr389) ( = 0.001; PRE to 3 h) and follistatin protein levels ( = 0.021; PRE to 6 h) increased post-exercise, regardless of the bout, whereas phospho-AKT (Thr389), phospho-mTOR (Ser2448), and myostatin protein levels remained unaltered. These data continue to suggest that performing resistance exercise to volitional fatigue, regardless of load selection, elicits similar transient mRNA and signaling responses in skeletal muscle. Moreover, these data provide further evidence that the transcriptional regulation of myostatin signaling is an involved mechanism in response to resistance exercise.

摘要

尽管转录组谱分析已在几项抗阻训练研究中得到应用，但相关分析方法很少提供与骨骼肌肥大相关的单个基因的深入信息。因此，我们对之前发表的一项涉及接受过训练的大学生男性（n=11）以随机交叉方式进行两次抗阻运动的肌肉转录组数据集进行了二次分析。低负荷回合（30 Fail）由 8 组下半身运动组成，使用 30%的 1 次重复最大（1 RM）负荷至自愿疲劳，而高负荷回合（80 Fail）则使用 80%的 1 RM 负荷进行相同的运动。在每个回合之前（PRE）、3 小时和 6 小时采集股外侧肌活检，从我们之前的微阵列数据中手动检查与骨骼肌肥大相关的 58 个基因。选择的靶基因进一步检测与诱导的蛋白表达和磷酸化相关的信号事件。尽管 58 个基因靶标中没有一个显示出明显的回合×时间相互作用，但~~57%（32 个基因）从 PRE 到 3 小时显示出时间的显著主效应（15↑和 17↓，<0.01），并且~~26%（17 个基因）从 PRE 到 6 小时显示出时间的显著主效应（8↑和 9↓，<0.01）。值得注意的是，与肌肉生长抑制素（9 个基因）和哺乳动物雷帕霉素靶蛋白复合物 1（mTORC1）（9 个基因）信号通路相关的基因最为突出。与 mTORC1 信号相关的 mRNA 相比，更多的 MSTN 信号相关的 mRNAs（9 个中的 7 个）在运动后发生改变，无论回合如何，而是唯一在运动后上调的 mTORC1 相关 mRNA。磷酸化（磷酸化）p70S6K（Thr389）（=0.001；PRE 至 3 小时）和卵泡抑素蛋白水平（=0.021；PRE 至 6 小时）在运动后增加，无论回合如何，而磷酸化 AKT（Thr389）、磷酸化 mTOR（Ser2448）和肌肉生长抑制素蛋白水平保持不变。这些数据继续表明，无论负荷选择如何，进行至自愿疲劳的抗阻运动都会在骨骼肌中引起相似的短暂 mRNA 和信号反应。此外，这些数据提供了进一步的证据，表明肌肉生长抑制素信号的转录调控是对抗阻运动的一种涉及机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f158/10047349/e950bb3179f6/cells-12-00898-g001.jpg

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不同的抗阻运动负荷范式同样影响肌肉生长抑制素相关靶点和 mTORC1 信号标记物的骨骼肌基因表达模式。

Different Resistance Exercise Loading Paradigms Similarly Affect Skeletal Muscle Gene Expression Patterns of Myostatin-Related Targets and mTORC1 Signaling Markers.

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