Biomedical Research Institute BRIS, Ljubljana, Slovenia.
Acta Physiol (Oxf). 2014 Mar;210(3):655-66. doi: 10.1111/apha.12228.
Studies in humans show global changes in mRNA and protein expression occur in human skeletal muscle during bed rest. As microRNAs are important regulators of expression, we analysed the global microRNA expression changes in human muscle following 10 days of sustained bed rest, with the rationale that miRNAs play key roles in atrophy of skeletal muscle.
We analysed expression of miRNA and selected target proteins before and after 10 days of bed rest in biopsies obtained from the vastus lateralis muscle of 6 healthy males.
Fifteen of 152 miRNAs detected in human muscle tissue were differentially expressed, and all of them with exception of two were downregulated. The downregulated miRNAs include the following: miR-206, a myomir involved in function and maintenance of skeletal muscle; miR-23a, involved in insulin response and atrophy defence; and several members of the let-7 family involved in cell cycle, cell differentiation and glucose homeostasis. Predicted gene targets of these miRNAs are members of the MAPK, TNF receptor, ALK1, TGF-beta receptor and SMAD signalling pathways. All of these pathways were previously indicated to be involved in skeletal muscle response to physical inactivity. We also measured protein expression of selected miRNA targets and observed a decrease in HDAC4.
Our data demonstrate that miRNAs in postural muscles are affected by sustained inactivity and unloading, as induced by prolonged bed rest, and hence are potentially involved in regulation of skeletal muscle adjustments to inactivity. We also propose new miRNAs involved in regulation of biological processes in adult human muscle.
人体研究表明,卧床休息期间人体骨骼肌的 mRNA 和蛋白质表达会发生全面变化。由于 microRNA 是表达的重要调节剂,我们分析了人类肌肉在持续卧床休息 10 天后的 microRNA 表达的全面变化,其基本原理是 microRNAs 在骨骼肌萎缩中发挥关键作用。
我们分析了健康男性 6 人股外侧肌活检样本在卧床休息 10 天前后的 microRNA 表达和选定的靶蛋白。
在人类肌肉组织中检测到的 152 种 microRNA 中有 15 种表达差异,除两种外,所有 microRNA 均下调。下调的 microRNA 包括:miR-206,一种参与骨骼肌功能和维持的肌 microRNA;miR-23a,参与胰岛素反应和萎缩防御;以及几个 let-7 家族成员,涉及细胞周期、细胞分化和葡萄糖稳态。这些 microRNA 的预测基因靶标是 MAPK、TNF 受体、ALK1、TGF-β受体和 SMAD 信号通路的成员。所有这些途径以前都表明参与骨骼肌对非运动的反应。我们还测量了选定的 microRNA 靶标蛋白的表达,发现 HDAC4 减少。
我们的数据表明,姿势肌中的 microRNA 受到持续不活动和卸载的影响,如长时间卧床休息所诱导,因此可能参与调节骨骼肌对不活动的适应。我们还提出了新的 microRNA 涉及成人肌肉中生物学过程的调节。
