Lithuanian Academy of Physical Education, Kaunas, Lithuania.
Appl Physiol Nutr Metab. 2012 Dec;37(6):1038-46. doi: 10.1139/h2012-087. Epub 2012 Aug 14.
Alpha-actinin-3 (ACTN3) is an integral part of the Z line of the sarcomere. The ACTN3 R577X (rs1815739) polymorphism determines the presence or absence of functional ACTN3, which may influence the extent of exercise-induced muscle damage. This study aimed to compare the impact of, and recovery from, muscle-damaging eccentric exercise on subjects with or without functional ACTN3. Seventeen young men (20-33 years old), homozygous for the R (n = 9) or X (n = 8) alleles, performed two bouts of stretch-shortening exercise (50 drop jumps) two weeks apart. Muscle soreness, plasma creatine kinase (CK) activity, jump height, maximal voluntary isometric torque (MVC), peak concentric isokinetic torque (IT), and electrically stimulated knee extension torques at 20 and 100 Hz were measured at baseline and at a number of time points up to 14 days after each bout. There were no significant baseline differences between the groups. However, significant time point × genotype interactions were observed for MVC (p = 0.021) and IT (p = 0.011) for the immediate effect of eccentric exercise in bout 1. The RR group showed greater voluntary force decrements (RR vs. XX: MVC, -33.3% vs. -24.5%; IT, -35.9% vs. -23.2%) and slower recovery. A repeated-bout effect was clearly observed, but there were no differences by genotype group. The ACTN3 genotype modulates the response of muscle function to plyometric jumping exercise, although the differences are modest. The ACTN3 genotype does not influence the clearly observed repeated-bout effect; however, XX homozygotes recover baseline voluntary torque values faster and thus may be able to undertake more frequent training sessions.
α-辅肌动蛋白-3 (ACTN3) 是肌节 Z 线的组成部分。ACTN3 R577X (rs1815739) 多态性决定了功能性 ACTN3 的存在与否,这可能会影响运动引起的肌肉损伤程度。本研究旨在比较具有或不具有功能性 ACTN3 的个体在进行肌肉损伤性离心运动后的影响和恢复情况。17 名年轻男性(20-33 岁),均为 R (n = 9) 或 X (n = 8) 等位基因的纯合子,在两周内进行了两次拉伸-缩短运动(50 次跳降)。在基线和两次运动后的多个时间点测量肌肉酸痛、血浆肌酸激酶 (CK) 活性、跳跃高度、最大自主等长扭矩 (MVC)、最大向心等速扭矩 (IT),以及电刺激膝关节在 20Hz 和 100Hz 时的伸膝扭矩。两组在基线时无显著差异。然而,在第一次运动中,MVC (p = 0.021) 和 IT (p = 0.011) 的即刻效应存在显著的时间点×基因型交互作用。RR 组的自愿力下降幅度更大(RR 与 XX:MVC,-33.3%比-24.5%;IT,-35.9%比-23.2%),恢复速度较慢。明显观察到重复运动的效果,但基因型组之间没有差异。ACTN3 基因型调节肌肉功能对增强式跳跃运动的反应,尽管差异不大。ACTN3 基因型不影响明显观察到的重复运动效应;然而,XX 纯合子更快地恢复基线自愿扭矩值,因此可能能够进行更频繁的训练。
