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首页> 外文期刊>Physiological genomics >Distance running alters peripheral microRNAs implicated in metabolism, fluid balance, and myosin regulation in a sex-specific manner
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Distance running alters peripheral microRNAs implicated in metabolism, fluid balance, and myosin regulation in a sex-specific manner

机译:运行的距离改变外周小鼠,涉及以性别特异性的方式进行代谢,液体平衡和肌球蛋白调节

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Microribonucleic acids (miRNAs) mediate adaptive responses to exercise and may serve as biomarkers of exercise intensity/capacity. Expression of miRNAs is altered in skeletal muscle, plasma, and saliva following exertion. Women display unique physiologic responses to endurance exercise, and miRNAs respond to pathologic states in sex-specific patterns. However sex-specific miRNA responses to exercise remain unexplored. This study utilized high throughput RNA sequencing to measure changes in salivary RNA expression among 25 collegiate runners following a single long-distance run. RNA concentrations in pre- and post-run saliva was assessed through alignment and quantification of 4,694 miRNAs and 27,687 mRNAs. Pair-wise Wilcoxon rank-sum test identified miRNAs with significant [false discovery rate (FDR) 0.05] post-run changes. Associations between miRNA levels and predicted mRNA targets were explored with Pearson correlations. Differences in miRNA patterns between men (n = 13) and women (n = 12) were investigated with two-way analysis of variance. Results revealed 122 salivary miRNAs with post-run changes. The eight miRNAs with the largest changes were miR-3671, miR-5095 (downregulated); and miR-7154-3p, miR-200b-5p, miR-5582-3p, miR-6859-3p, miR-6751-5p, miR-4419a (upregulated). Predicted mRNA targets for these miRNAs represented 15 physiologic processes, including glycerophospholipid metabolism (FDR = 0.042), aldosterone-regulated sodium reabsorption (FDR = 0.049), and arrhythmogenic ventricular cardiomyopathy (FDR = 0.018). Twenty-six miRNA/mRNA pairs had associated changes in post-run levels. Three miRNAs (miR-4675, miR-6745, miR-6746-3p) demonstrated sex-specific responses to exercise. Numerous salivary miRNAs change in response to endurance running and target the expression of genes involved in metabolism, fluid balance, and musculoskeletal adaptations. A subset of miRNAs may differentiate the metabolic response to exercise in men and women.
机译:微生核酸(miRNA)介导适应性响应锻炼,并可作为运动强度/容量的生物标志物。在施加后,MiRNA的表达在骨骼肌,血浆和唾液中改变。妇女展示了对耐力运动的独特生理反应,MiRNA在性别特异性模式中对病理状态作出反应。然而,性别特定的miRNA对锻炼的反应仍未开发。本研究利用高通量RNA测序测序,以在单个长距离运行后25种大学生跑步者测量唾液RNA表达的变化。通过对准和定量4,694 miRNA和27,687mRNA的比赛评估研发前唾液中的RNA浓度。配对Wilcoxon秩 - 和测试识别具有显着的[虚假发现率(FDR)&的miRNA。 0.05]后变化。 MiRNA水平与预测mRNA目标之间的关联进行了探索了Pearson相关性。研究了男性(n = 13)和女性(n = 12)之间miRNA模式的差异,以双向分析方差分析。结果显示122名唾液MIRNA,后续变化。具有最大变化的八个miRNA是miR-3671,miR-5095(下调);和miR-7154-3p,miR-200b-5p,miR-5582-3p,miR-6859-3p,miR-6751-5p,miR-4419a(上调)。预测这些miRNA的mRNA靶标表示15个生理过程,包括甘油磷脂代谢(FDR = 0.042),醛固酮调节钠重吸收(FDR = 0.049),以及心律源室性心肌病(FDR = 0.018)。二十六个miRNA / mRNA对具有相关的后级别的变化。三个miRNA(miR-4675,mir-6745,mir-6746-3p)表现出对运动的性别特定的反应。众多唾液miRNA响应耐久性运行而变化,靶向代谢,液体平衡和肌肉骨骼适应所涉及的基因的表达。 MiRNA的子集可以区分对男女运动的代谢反应。

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