Dept. of Physical Medicine and Rehabilitation, University of Michigan, Ann Arbor, USA.
BMC Genomics. 2010 Nov 24;11:659. doi: 10.1186/1471-2164-11-659.
The molecular mechanisms underlying the sex differences in human muscle morphology and function remain to be elucidated. The sex differences in the skeletal muscle transcriptome in both the resting state and following anabolic stimuli, such as resistance exercise (RE), might provide insight to the contributors of sexual dimorphism of muscle phenotypes. We used microarrays to profile the transcriptome of the biceps brachii of young men and women who underwent an acute unilateral RE session following 12 weeks of progressive training. Bilateral muscle biopsies were obtained either at an early (4 h post-exercise) or late recovery (24 h post-exercise) time point. Muscle transcription profiles were compared in the resting state between men (n = 6) and women (n = 8), and in response to acute RE in trained exercised vs. untrained non-exercised control muscle for each sex and time point separately (4 h post-exercise, n = 3 males, n = 4 females; 24 h post-exercise, n = 3 males, n = 4 females). A logistic regression-based method (LRpath), following Bayesian moderated t-statistic (IMBT), was used to test gene functional groups and biological pathways enriched with differentially expressed genes.
This investigation identified extensive sex differences present in the muscle transcriptome at baseline and following acute RE. In the resting state, female muscle had a greater transcript abundance of genes involved in fatty acid oxidation and gene transcription/translation processes. After strenuous RE at the same relative intensity, the time course of the transcriptional modulation was sex-dependent. Males experienced prolonged changes while females exhibited a rapid restoration. Most of the biological processes involved in the RE-induced transcriptional regulation were observed in both males and females, but sex specificity was suggested for several signaling pathways including activation of notch signaling and TGF-beta signaling in females. Sex differences in skeletal muscle transcriptional regulation might implicate a mechanism behind disproportional muscle growth in males as compared with female counterparts after RE training at the same relative intensity.
Sex differences exist in skeletal muscle gene transcription both at rest and following acute RE, suggesting that sex is a significant modifier of the transcriptional regulation in skeletal muscle. The findings from the present study provide insight into the molecular mechanisms for sex differences in muscle phenotypes and for muscle transcriptional regulation associated with training adaptations to resistance exercise.
人类肌肉形态和功能的性别差异的分子机制仍有待阐明。在休息状态以及接受合成代谢刺激(如抗阻运动(RE))后,骨骼肌转录组的性别差异可能为肌肉表型性别二态性的贡献因素提供了一些见解。我们使用微阵列分析了经过 12 周渐进训练后接受单侧急性 RE 治疗的年轻男性和女性肱二头肌的转录组。在早期(运动后 4 小时)或晚期恢复(运动后 24 小时)时间点分别从双侧肌肉活检中获取肌肉转录谱。在休息状态下,我们比较了男性(n = 6)和女性(n = 8)之间的肌肉转录谱,以及在训练有素的运动和未训练的非运动对照组中,每个性别和时间点对急性 RE 的反应(运动后 4 小时,n = 3 名男性,n = 4 名女性;运动后 24 小时,n = 3 名男性,n = 4 名女性)。使用基于逻辑回归的方法(LRpath),以及贝叶斯调节 t 统计量(IMBT),测试了基因功能组和富含差异表达基因的生物途径。
本研究在基线和急性 RE 后发现了肌肉转录组中广泛存在的性别差异。在休息状态下,女性肌肉中涉及脂肪酸氧化和基因转录/翻译过程的基因转录丰度更高。在相同相对强度的剧烈 RE 后,转录调节的时间进程具有性别依赖性。男性经历了长时间的变化,而女性则表现出快速的恢复。RE 诱导的转录调节所涉及的大多数生物学过程在男性和女性中都观察到,但在几个信号通路中观察到了性别特异性,包括女性 Notch 信号和 TGF-β信号的激活。在抗阻运动训练的相同相对强度下,与女性相比,男性的肌肉生长不成比例,这可能暗示了性别在骨骼肌肉转录调节中的机制。
在休息和急性 RE 后,骨骼肌基因转录存在性别差异,提示性别是骨骼肌转录调节的重要修饰因子。本研究的结果为肌肉表型性别差异以及与抗阻运动训练适应相关的肌肉转录调节的分子机制提供了一些见解。
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