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短期同时与单一模式抗阻训练后,增强的骨骼肌核糖体生物发生,而 mTORC1 和核糖体生物发生相关信号转导被削弱。

Enhanced skeletal muscle ribosome biogenesis, yet attenuated mTORC1 and ribosome biogenesis-related signalling, following short-term concurrent versus single-mode resistance training.

机构信息

Institute of Sport, Exercise and Active Living (ISEAL), Victoria University, Melbourne, Australia.

School of Exercise and Nutrition Sciences, Deakin University, Melbourne, Australia.

出版信息

Sci Rep. 2018 Jan 12;8(1):560. doi: 10.1038/s41598-017-18887-6.

DOI:10.1038/s41598-017-18887-6
PMID:29330460
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5766515/
Abstract

Combining endurance training with resistance training (RT) may attenuate skeletal muscle hypertrophic adaptation versus RT alone; however, the underlying mechanisms are unclear. We investigated changes in markers of ribosome biogenesis, a process linked with skeletal muscle hypertrophy, following concurrent training versus RT alone. Twenty-three males underwent eight weeks of RT, either performed alone (RT group, n = 8), or combined with either high-intensity interval training (HIT+RT group, n = 8), or moderate-intensity continuous training (MICT+RT group, n = 7). Muscle samples (vastus lateralis) were obtained before training, and immediately before, 1 h and 3 h after the final training session. Training-induced changes in basal expression of the 45S ribosomal RNA (rRNA) precursor (45S pre-rRNA), and 5.8S and 28S mature rRNAs, were greater with concurrent training versus RT. However, during the final training session, RT further increased both mTORC1 (p70S6K1 and rps6 phosphorylation) and 45S pre-rRNA transcription-related signalling (TIF-1A and UBF phosphorylation) versus concurrent training. These data suggest that when performed in a training-accustomed state, RT induces further increases mTORC1 and ribosome biogenesis-related signalling in human skeletal muscle versus concurrent training; however, changes in ribosome biogenesis markers were more favourable following a period of short-term concurrent training versus RT performed alone.

摘要

将耐力训练与抗阻训练(RT)相结合可能会减弱 RT 单独引起的骨骼肌肥大适应;然而,其潜在机制尚不清楚。我们研究了核糖体生物发生标志物的变化,这一过程与骨骼肌肥大有关,观察了在同时进行训练与 RT 单独进行时的变化。23 名男性接受了 8 周的 RT,要么单独进行(RT 组,n=8),要么与高强度间歇训练(HIT+RT 组,n=8)或中等强度持续训练(MICT+RT 组,n=7)相结合。在训练前、最后一次训练前、1 小时和 3 小时后,从股外侧肌获得肌肉样本。与单独进行 RT 相比,同时进行训练时,45S 核糖体 RNA(rRNA)前体(45S pre-rRNA)和 5.8S 和 28S 成熟 rRNA 的基础表达的训练诱导变化更大。然而,在最后一次训练期间,与同时进行训练相比,RT 进一步增加了 mTORC1(p70S6K1 和 rps6 磷酸化)和 45S pre-rRNA 转录相关信号(TIF-1A 和 UBF 磷酸化)。这些数据表明,当在训练适应状态下进行时,与同时进行训练相比,RT 会进一步增加人类骨骼肌中的 mTORC1 和核糖体生物发生相关信号;然而,与单独进行 RT 相比,在短期同时进行训练后,核糖体生物发生标志物的变化更为有利。

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J Appl Physiol (1985). 2015 Oct 15;119(8):851-7. doi: 10.1152/japplphysiol.00489.2015. Epub 2015 Aug 20.
8
Blunted hypertrophic response in aged skeletal muscle is associated with decreased ribosome biogenesis.老年骨骼肌中肥厚反应减弱与核糖体生物合成减少有关。
J Appl Physiol (1985). 2015 Aug 15;119(4):321-7. doi: 10.1152/japplphysiol.00296.2015. Epub 2015 Jun 5.
9
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