Trappe Scott, Creer Andrew, Minchev Kiril, Slivka Dustin, Louis Emily, Luden Nicholas, Trappe Todd
Human Performance Laboratory, Ball State University, Muncie, IN 47306, USA.
Am J Physiol Regul Integr Comp Physiol. 2008 Mar;294(3):R939-47. doi: 10.1152/ajpregu.00761.2007. Epub 2007 Dec 19.
The soleus muscle has been consistently shown to atrophy more than other leg muscles during unloading and is difficult to protect using various exercise countermeasure paradigms. However, the efficacy of aerobic exercise, a known stimulus for oxidative adaptations, has not been tested in combination with resistance exercise (RE), a known hypertrophic stimulus. We hypothesized that a concurrent exercise program (AE + RE) would preserve soleus fiber myosin heavy chain (MHC) I size and function during 60 days of bed rest. A secondary objective was to test the hypothesis that a leucine-enriched high protein diet would partially protect soleus single fiber characteristics. Soleus muscle biopsies were obtained before and after bed rest from a control (BR; n = 7), nutrition (BRN; n = 8), and exercise (BRE; n = 6) group. Single muscle fiber diameter (Dia), peak force (Po), contractile velocity, and power were studied. BR decreased (P < 0.05) MHC I Dia (-14%), Po (-38%), and power (-39%) with no change in contractile velocity. Changes in MHC I size (-13%) and contractile function (approximately 30%) from BRN were similar to BR. BRE decreased (P < 0.05) MHC I Dia (-13%) and Po (-23%), while contractile velocity increased (P < 0.05) 26% and maintained power. These soleus muscle data show 1) the AE + RE exercise program maintained MHC I power but not size and strength, and 2) the nutrition countermeasure did not benefit single fiber size and contractile function. The divergent response in size and functional MHC I soleus properties with the concurrent exercise program was a unique finding further highlighting the challenges of protecting the unloaded soleus.
比目鱼肌在失重状态下始终比其他腿部肌肉萎缩得更严重,并且采用各种运动对策范式都难以对其进行保护。然而,有氧运动作为一种已知的氧化适应刺激因素,其功效尚未与抗阻运动(RE)(一种已知的肥大刺激因素)相结合进行测试。我们假设,在60天的卧床休息期间,同时进行有氧运动和抗阻运动(AE + RE)的方案能够维持比目鱼肌纤维肌球蛋白重链(MHC)I的大小和功能。第二个目标是检验富含亮氨酸的高蛋白饮食能够部分保护比目鱼肌单纤维特征这一假设。在卧床休息前后,从对照组(BR;n = 7)、营养组(BRN;n = 8)和运动组(BRE;n = 6)获取比目鱼肌活检样本。研究了单肌纤维直径(Dia)、峰值力(Po)、收缩速度和功率。BR组中,MHC I Dia下降了14%(P < 0.05),Po下降了38%,功率下降了39%,而收缩速度没有变化。BRN组中,MHC I大小下降了13%,收缩功能下降了约30%,与BR组相似。BRE组中,MHC I Dia下降了13%(P < 0.05),Po下降了23%,而收缩速度增加了26%(P < 0.05)并维持了功率。这些比目鱼肌数据表明:1)AE + RE运动方案维持了MHC I的功率,但没有维持其大小和力量;2)营养对策对单纤维大小和收缩功能没有益处。同时进行运动方案时,比目鱼肌MHC I在大小和功能特性上的不同反应是一个独特的发现,进一步凸显了保护失重状态下比目鱼肌的挑战。
