Guilherme João Paulo Limongi França, Lancha Antonio Herbert
Int J Sport Nutr Exerc Metab. 2017 Dec;27(6):533-542. doi: 10.1123/ijsnem.2017-0098. Epub 2017 Sep 5.
Carnosine (β-alanyl-L-histidine), abundantly found in skeletal muscle, plays an important role during exercise, especially for high-intensity contractions. Variability in muscle carnosine content between individuals exists and may also be explained by different genetic bases, although no study has addressed the association of polymorphisms in genes related to carnosine metabolism in athletes. This study aimed to investigate the frequency of single nucleotide polymorphisms (SNPs) in the carnosinase genes (CNDP1 and CNDP2) in a large Brazilian cohort of athletes and nonathletes. Eight SNPs were compared between a representative cohort of elite athletes from Brazil (n = 908) and a paired group of nonathletes (n = 967). The athletes were stratified into three groups: endurance (n = 328), power (n = 415), and combat (n = 165). The CNDP2 rs6566810 (A/A genotype) is overrepresented in endurance athletes, but only in international-level endurance athletes. Three SNPs (CNDP2 rs3764509, CNDP2-CNDP1 rs2346061, and CNDP1 rs2887) were overrepresented in power athletes compared with nonathletes. Carriers of the minor allele had an increased odds ratio of being a power athlete. For the rs2346061, no significant difference was observed in genotype frequencies between power and combat sports athletes, but for rs2887 the power and combat groups showed an inverse genotype distribution. In conclusion, we found that minor alleles carriers for CNDP2 rs3764509 (G-allele), CNDP2-CNDP1 rs2346061 (C-allele), and CNDP1 rs2887 (A-allele) are more likely to be a power athlete. These polymorphisms may be novel genetic markers for power athletes. Furthermore, these results are suggestive of a distinct CNDP genotype for sporting development.
肌肽(β-丙氨酰-L-组氨酸)在骨骼肌中大量存在,在运动过程中发挥着重要作用,尤其是在高强度收缩时。个体之间肌肉肌肽含量存在差异,这也可能由不同的基因基础来解释,尽管尚无研究探讨运动员中与肌肽代谢相关基因多态性的关联。本研究旨在调查巴西一大群运动员和非运动员中肌肽酶基因(CNDP1和CNDP2)单核苷酸多态性(SNP)的频率。在来自巴西的一组有代表性的精英运动员(n = 908)和一组配对的非运动员(n = 967)之间比较了8个SNP。运动员被分为三组:耐力组(n = 328)、力量组(n = 415)和格斗组(n = 165)。CNDP2 rs6566810(A/A基因型)在耐力运动员中比例过高,但仅在国际水平的耐力运动员中如此。与非运动员相比,三个SNP(CNDP2 rs3764509、CNDP2 - CNDP1 rs2346061和CNDP1 rs2887)在力量运动员中比例过高。次要等位基因携带者成为力量运动员的优势比增加。对于rs2346061,力量和格斗项目运动员的基因型频率未观察到显著差异,但对于rs2887,力量组和格斗组显示出相反的基因型分布。总之,我们发现CNDP2 rs3764509(G等位基因)、CNDP2 - CNDP1 rs2346061(C等位基因)和CNDP1 rs2887(A等位基因)的次要等位基因携带者更有可能成为力量运动员。这些多态性可能是力量运动员新的遗传标记。此外,这些结果提示了运动发育中不同的CNDP基因型。
