Health Sciences and Medicine Faculty, Bond University, Robina, QLD, 4226, Australia.
Genomics Research Centre, Institute of Health and Biomedical Innovation, School of Biomedical Sciences, Queensland University of Technology, Brisbane, QLD, 4059, Australia.
Mol Genet Genomics. 2020 Mar;295(2):515-523. doi: 10.1007/s00438-019-01639-8. Epub 2020 Jan 2.
Adaptation to exercise training is a complex trait that may be influenced by genetic variants. We identified 36 single nucleotide polymorphisms (SNPs) that had been previously associated with endurance or strength performance, exercise-related phenotypes or exercise intolerant disorders. A MassARRAY multiplex genotyping assay was designed to identify associations with these SNPs against collected endurance fitness phenotype parameters obtained from two exercise cohorts (Gene SMART study; n = 58 and Hawaiian Ironman Triathlon 2008; n = 115). These parameters included peak power output (PP), a time trial (TT), lactate threshold (LT), maximal oxygen uptake (VO max) in recreationally active individuals and a triathlon time-to-completion (Hawaiian Ironman Triathlon cohort only). A nominal significance threshold of α < 0.05 was used to identify 17 variants (11 in the Gene SMART population and six in the Hawaiian Ironman Triathlon cohort) which were significantly associated with performance gains in highly trained individuals. The variant rs1474347 located in Interleukin 6 (IL6) was the only variant with a false discovery rate < 0.05 and was found to be associated with gains in VO max (additional 4.016 mL/(kg min) for each G allele inherited) after training in the Gene SMART cohort. In summary, this study found further evidence to suggest that genetic variance can influence training response in a moderately trained cohort and provides an example of the potential application of genomic research in the assessment of exercise trait response.
适应运动训练是一种复杂的特征,可能受到遗传变异的影响。我们鉴定了 36 个单核苷酸多态性(SNP),这些 SNP 先前与耐力或力量表现、与运动相关的表型或运动不耐受障碍有关。设计了 MassARRAY 多重基因分型检测,以鉴定与这 36 个 SNP 的关联,这些 SNP 针对从两个运动训练队列(Gene SMART 研究;n=58 和 2008 年夏威夷铁人三项赛;n=115)收集的耐力健身表型参数。这些参数包括峰值功率输出(PP)、计时赛(TT)、乳酸阈(LT)、在有运动习惯的个体中的最大摄氧量(VO max)和铁人三项赛完成时间(仅夏威夷铁人三项赛队列)。使用名义显著性阈值α<0.05 来鉴定 17 个变体(在 Gene SMART 人群中有 11 个,在夏威夷铁人三项赛队列中有 6 个),这些变体与高度训练个体的表现提高显著相关。位于白细胞介素 6(IL6)的变体 rs1474347 是唯一的假发现率<0.05 的变体,在 Gene SMART 队列的训练后,与 VO max 的提高相关(每遗传一个 G 等位基因,额外增加 4.016 mL/(kg min))。总之,这项研究进一步证明遗传变异可以影响中度训练队列的训练反应,并提供了基因组研究在评估运动特征反应中的潜在应用的范例。
