Novel whole blood transcriptome signatures of changes in maximal aerobic capacity in response to endurance exercise training in healthy women.

IF 2.5 4区 生物学 Q3 CELL BIOLOGY
Physiological genomics Pub Date : 2023-08-01 Epub Date: 2023-06-19 DOI:10.1152/physiolgenomics.00017.2023
Thomas J LaRocca, Meghan E Smith, Kaitlin A Freeberg, Daniel H Craighead, Timothy Helmuth, Matthew M Robinson, K Sreekumaran Nair, Angela D Bryan, Douglas R Seals
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引用次数: 0

Abstract

Maximal aerobic exercise capacity [maximal oxygen consumption (V̇o2max)] is one of the strongest predictors of morbidity and mortality. Aerobic exercise training can increase V̇o2max, but inter-individual variability is marked and unexplained physiologically. The mechanisms underlying this variability have major clinical implications for extending human healthspan. Here, we report a novel transcriptome signature related to ΔV̇o2max with exercise training detected in whole blood RNA. We used RNA-Seq to characterize transcriptomic signatures of ΔV̇o2max in healthy women who completed a 16-wk randomized controlled trial comparing supervised, higher versus lower aerobic exercise training volume and intensity (4 training groups, fully crossed). We found significant baseline gene expression differences in subjects who responded to aerobic exercise training with robust versus little/no ΔV̇o2max, and differentially expressed genes/transcripts were mostly related to inflammatory signaling and mitochondrial function/protein translation. Baseline gene expression signatures associated with robust versus little/no ΔV̇o2max were also modulated by exercise training in a dose-dependent manner, and they predicted ΔV̇o2max in this and a separate dataset. Collectively, our data demonstrate the potential utility of using whole blood transcriptomics to study the biology of inter-individual variability in responsiveness to the same exercise training stimulus.

健康女性最大有氧运动能力随耐力运动训练而变化的全血转录组新特征。
最大有氧运动能力[最大耗氧量(Vo2max)]是预测发病率和死亡率的最有力指标之一。有氧运动训练可提高最大氧消耗量,但个体间的差异很大,生理学上也无法解释。这种变异性的内在机制对延长人类健康寿命具有重要的临床意义。在此,我们报告了在全血 RNA 中检测到的与运动训练ΔV̇o2max 相关的新型转录组特征。我们使用 RNA-Seq 分析了健康女性ΔV⋅M⋅O2max 的转录组特征,这些女性完成了一项为期 16 周的随机对照试验,比较了有监督的、较高与较低的有氧运动训练量和强度(4 个训练组,完全交叉)。我们发现,对有氧运动训练做出反应的受试者的基线基因表达存在明显差异,即具有较强的ΔV̇o2max与很少/没有ΔV̇o2max,不同表达的基因/转录本大多与炎症信号转导和线粒体功能/蛋白质翻译有关。在本数据集和另一个数据集中,与ΔV 汁浓度2max 高与低/无相关的基线基因表达特征也受到运动训练剂量依赖性的调节,而且它们预测了ΔV 汁浓度2max。总之,我们的数据证明了利用全血转录组学研究个体间对相同运动训练刺激反应性差异的生物学特性的潜在用途。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Physiological genomics
Physiological genomics 生物-生理学
CiteScore
6.10
自引率
0.00%
发文量
46
审稿时长
4-8 weeks
期刊介绍: The Physiological Genomics publishes original papers, reviews and rapid reports in a wide area of research focused on uncovering the links between genes and physiology at all levels of biological organization. Articles on topics ranging from single genes to the whole genome and their links to the physiology of humans, any model organism, organ, tissue or cell are welcome. Areas of interest include complex polygenic traits preferably of importance to human health and gene-function relationships of disease processes. Specifically, the Journal has dedicated Sections focused on genome-wide association studies (GWAS) to function, cardiovascular, renal, metabolic and neurological systems, exercise physiology, pharmacogenomics, clinical, translational and genomics for precision medicine, comparative and statistical genomics and databases. For further details on research themes covered within these Sections, please refer to the descriptions given under each Section.
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