Biometrics Laboratory (LADEBIO), Federal University of Rio de Janeiro, Rio de Janeiro 21941-599, Brazil.
Instituto de Biofisica Carlos Chagas Filho, Universidade Federal do Rio de Janeiro, Rio de Janeiro 21941-170, Brazil.
Genes (Basel). 2024 Aug 17;15(8):1088. doi: 10.3390/genes15081088.
Maximal oxygen uptake (VOmax) is a determining indicator for cardiorespiratory capacity in endurance athletes, and epigenetics is crucial in its levels and variability. This initial study examined a broad plasma miRNA profile of twenty-three trained elite endurance athletes with similar training volumes but different VOmax in response to an acute maximal graded endurance test. Six were clustered as higher/lower levels based on their VOmax (75.4 ± 0.9 and 60.1 ± 5.0 mL.kg.min). Plasma was obtained from athletes before and after the test and 15 ng of total RNA was extracted and detected using an SYBR-based 1113 miRNA RT-qPCR panel. A total of 51 miRNAs were differentially expressed among group comparisons. Relative amounts of miRNA showed a clustering behavior among groups regarding distinct performance/time points. Significantly expressed miRNAs were used to perform functional bioinformatic analysis (DIANA tools). Fatty acid metabolism pathways were strongly targeted for the significantly different miRNAs in all performance groups and time points ( < 0.001). Although this pathway does not solely determine endurance performance, their significant contribution is certainly achieved through the involvement of miRNAs. A highly genetically dependent gold standard variable for performance evaluation in a homogeneous group of elite athletes allowed genetic/epigenetic aspects related to fatty acid pathways to emerge.
最大摄氧量(VOmax)是耐力运动员心肺能力的决定指标,而表观遗传学在其水平和可变性方面起着关键作用。本初步研究检测了 23 名经过相同训练量但 VOmax 不同的训练有素的精英耐力运动员的广泛血浆 miRNA 图谱,以响应急性最大分级耐力测试。根据 VOmax(75.4 ± 0.9 和 60.1 ± 5.0 mL.kg.min),其中 6 人被聚类为较高/较低水平。在测试前后从运动员身上采集血浆,并提取 15ng 总 RNA,使用基于 SYBR 的 1113 miRNA RT-qPCR 面板进行检测。在组间比较中,共有 51 个 miRNA 存在差异表达。miRNA 的相对含量在不同组之间表现出聚类行为,与不同的表现/时间点有关。具有显著表达的 miRNA 用于进行功能生物信息学分析(DIANA 工具)。脂肪酸代谢途径是所有表现组和时间点中差异显著 miRNA 的主要靶标(<0.001)。尽管该途径不能单独决定耐力表现,但通过 miRNA 的参与,其显著贡献是肯定的。在一组同质的精英运动员中,高度依赖遗传的表现评估金标准变量允许与脂肪酸途径相关的遗传/表观遗传方面显现出来。
