84天卧床休息及抗阻运动对人体单肌纤维功能的影响
Human single muscle fibre function with 84 day bed-rest and resistance exercise.
作者信息
Trappe Scott, Trappe Todd, Gallagher Philip, Harber Matthew, Alkner Bjorn, Tesch Per
机构信息
Human Performance Laboratory, Ball State University, Muncie, IN 47306, USA.
出版信息
J Physiol. 2004 Jun 1;557(Pt 2):501-13. doi: 10.1113/jphysiol.2004.062166. Epub 2004 Apr 2.
Muscle biopsies were obtained from the vastus lateralis before and after 84 days of bed-rest from six control (BR) and six resistance-exercised (BRE) men to examine slow- and fast-twitch muscle fibre contractile function. BR did not exercise during bed-rest and had a 17 and 40% decrease in whole muscle size and function, respectively. The BRE group performed four sets of seven maximal concentric and eccentric supine squats 2-3 days per week (every third day) that maintained whole muscle strength and size. Slow (MHC I) and fast (MHC IIa) muscle fibres were studied at 15 degrees C for diameter, peak force (P(o)), contractile velocity (V(o)) and force-power parameters. SDS-PAGE was performed on each single fibre after the functional experiments to determine MHC isoform composition. MHC I and IIa BR fibres were, respectively, 15 and 8% smaller, 46 and 25% weaker (P(o)), 21 and 6% slower (V(o)), and 54 and 24% less powerful after bed-rest (P < 0.05). BR MHC I and IIa P(o) and power normalized to cell size were lower (P < 0.05). BRE MHC I fibres showed no change in size or V(o) after bed-rest; however, P(o) was 19% lower (P < 0.05), resulting in 20 and 30% declines (P < 0.05) in normalized P(o) and power, respectively. BRE MHC IIa fibres showed no change in size, P(o) and power after bed-rest, while V(o) was elevated 13% (P < 0.05). BRE MHC IIa normalized P(o) and power were 10 and 15% lower (P < 0.05), respectively. MHC isoform composition shifted away from MHC I fibres, resulting in an increase (P < 0.05) in MHC I/IIa (BR and BRE) and MHC IIa/IIx (BR only) fibres. These data show that the contractile function of the MHC I fibres was more affected by bed-rest and less influenced by the resistance exercise protocol than the MHC IIa fibres. Considering the large differences in power of human MHC I and IIa muscle fibres (5- to 6-fold), the maintenance of whole muscle function with the resistance exercise programme is probably explained by (1). the maintenance of MHC IIa power and (2). the shift from slow to fast (MHC I --> MHC I/IIa) in single fibre MHC isoform composition.
从6名对照(卧床休息,BR)和6名进行抗阻运动(抗阻运动卧床休息,BRE)的男性股外侧肌获取肌肉活检样本,以检查慢肌纤维和快肌纤维的收缩功能。BR组在卧床休息期间不运动,全肌大小和功能分别下降了17%和40%。BRE组每周2 - 3天(每三天一次)进行四组,每组7次最大程度的向心和离心仰卧深蹲,从而维持了全肌力量和大小。在15摄氏度下研究慢肌纤维(MHC I)和快肌纤维(MHC IIa)的直径、峰值力(P(o))、收缩速度(V(o))以及力 - 功率参数。功能实验后,对每根肌纤维进行SDS - PAGE以确定MHC亚型组成。卧床休息后,BR组的MHC I和IIa肌纤维直径分别减小了15%和8%,力量分别减弱了46%和25%(P(o)),收缩速度分别减慢了21%和6%(V(o)),功率分别降低了54%和24%(P < 0.05)。BR组MHC I和IIa的P(o)以及归一化至细胞大小后的功率更低(P < 0.05)。BRE组的MHC I肌纤维在卧床休息后大小和V(o)没有变化;然而,P(o)降低了19%(P < 0.05),导致归一化后的P(o)和功率分别下降了20%和30%(P < 0.05)。BRE组的MHC IIa肌纤维在卧床休息后大小、P(o)和功率没有变化,而V(o)升高了13%(P < 0.05)。BRE组MHC IIa归一化后的P(o)和功率分别低10%和15%(P < 0.05)。MHC亚型组成从MHC I纤维发生偏移,导致MHC I/IIa(BR组和BRE组)和MHC IIa/IIx(仅BR组)纤维增加(P < 0.05)。这些数据表明,与MHC IIa纤维相比,卧床休息对MHC I纤维收缩功能的影响更大,而抗阻运动方案对其影响较小。考虑到人类MHC I和IIa肌纤维在功率上存在巨大差异(5至6倍),抗阻运动方案维持全肌功能可能是由于(1). MHC IIa功率的维持,以及(2). 单根肌纤维MHC亚型组成从慢肌向快肌(MHC I --> MHC I/IIa)的转变。
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