Department of Kinesiology, James Madison University, Harrisonburg, Virginia 22807, USA.
Am J Physiol Regul Integr Comp Physiol. 2012 Jun 15;302(12):R1458-65. doi: 10.1152/ajpregu.00035.2012. Epub 2012 Apr 4.
The addition of aerobic exercise (AE) to a resistance exercise (RE) program (concurrent exercise, CE) can interfere with maximum muscle fiber growth achieved with RE. Further, CE appears to markedly affect the growth of myosin heavy chain (MHC) I, but not MHC IIa fibers. The mechanism responsible for this "interference" is unclear. Satellite cell (SC) responsiveness to exercise appears to influence muscle adaptation but has not yet been examined following acute concurrent exercise. Thus, we assessed the fiber-type-specific SC response to RE, AE, and CE exercise. Eight college-aged males completed the following two exercise trials: the RE trial, which consisted of unilateral leg extensions and presses (4 sets ≥ 10 repetitions: 75% 1 repetition maximum, RM); and the AE/CE trial, which included an identical RE protocol with the opposite leg, immediately followed by subjects cycling for 90 min (60% W(max)). Muscle biopsies were obtained from the vastus lateralis before and 4 days after each session. Samples were cross-sectioned, stained with antibodies against NCAM, Ki-67, and MHC I, counterstained with DAPI, and analyzed for SC density (SC per fiber), SC activation, and fiber type. SC density increased to a greater extent following RE (38 ± 10%), compared with CE (-6 ± 8%). Similarly, MHC I muscle fiber SC density displayed a greater increase following RE (46 ± 14%), compared with AE (-7 ± 17%) and CE (-8 ± 8%). Our data indicate that the SC response to RE is blunted when immediately followed by AE, at least in MHC I muscle fibers, and possibly MHC II fibers. This suggests that the physiological environment evoked by AE might attenuate the eventual addition of myonuclei important for maximum muscle fiber growth and consequent force-producing capacity.
有氧运动(AE)与抗阻运动(RE)相结合(同时运动,CE)会干扰 RE 所实现的最大肌纤维生长。此外,CE 似乎明显影响肌球蛋白重链(MHC)I 纤维的生长,但不影响 MHC IIa 纤维。导致这种“干扰”的机制尚不清楚。卫星细胞(SC)对运动的反应性似乎会影响肌肉适应,但尚未在急性同时运动后进行检查。因此,我们评估了 RE、AE 和 CE 运动对纤维类型特异性 SC 的反应。八名大学年龄的男性完成了以下两项运动试验:RE 试验,包括单侧腿伸展和按压(4 组≥10 次重复:75%的 1 次重复最大强度,RM);以及 AE/CE 试验,包括与另一侧腿相同的 RE 方案,立即让受试者进行 90 分钟的骑行(60%的 W(max))。在每个疗程前后,从股外侧肌中获取肌肉活检。将样本进行切片,用针对 NCAM、Ki-67 和 MHC I 的抗体染色,用 DAPI 复染,并分析 SC 密度(每个纤维的 SC)、SC 激活和纤维类型。与 CE(-6±8%)相比,RE 后 SC 密度增加幅度更大(38±10%)。同样,与 AE(-7±17%)和 CE(-8±8%)相比,RE 后 MHC I 肌肉纤维 SC 密度增加幅度更大(46±14%)。我们的数据表明,当立即进行 AE 时,RE 对 SC 的反应会减弱,至少在 MHC I 肌肉纤维中是如此,可能在 MHC II 纤维中也是如此。这表明 AE 引起的生理环境可能会减弱最终添加对最大肌纤维生长和随后的产生力量能力很重要的肌核。
