升高的 H 和 P 对年轻和老年男性骨骼肌纤维收缩力学的影响:对人类肌肉疲劳的影响。
Effects of elevated H and P on the contractile mechanics of skeletal muscle fibres from young and old men: implications for muscle fatigue in humans.
机构信息
Exercise Science Program, Milwaukee, WI, USA.
Clinical & Translational Rehabilitation Health Sciences Program, Department of Physical Therapy, Marquette University, Milwaukee, WI, USA.
出版信息
J Physiol. 2018 Sep;596(17):3993-4015. doi: 10.1113/JP276018. Epub 2018 Jul 1.
KEY POINTS
The mechanisms responsible for the loss in muscle power and increased fatigability with ageing are unresolved. We show that the contractile mechanics of fibres from the vastus lateralis of old men were well-preserved compared to those of young men, but the selective loss of fast myosin heavy chain II muscle was strongly associated with age-related decrements in whole-muscle strength and power. We reveal that the combination of acidosis (H ) and inorganic phosphate (P ) is an important mediator of muscle fatigue in humans by inhibiting the low- to high-force state of the cross-bridge cycle and peak power, but the depressive effects of these ions on cross-bridge function were similar in fibres from young and old men. These findings suggest that the age-related loss in muscle power is primarily determined by the atrophy of fast fibres, but the age-related increased fatigability cannot be explained by an increased sensitivity of the cross-bridge to H and P .
ABSTRACT
The present study aimed to identify the mechanisms responsible for the loss in muscle power and increased fatigability with ageing by integrating measures of whole-muscle function with single fibre contractile mechanics. After adjusting for the 22% smaller muscle mass in old (73-89 years, n = 6) compared to young men (20-29 years, n = 6), isometric torque and power output of the knee extensors were, respectively, 38% and 53% lower with age. Fatigability was ∼2.7-fold greater with age and strongly associated with reductions in the electrically-evoked contractile properties. To test whether cross-bridge mechanisms could explain age-related decrements in knee extensor function, we exposed myofibres (n = 254) from the vastus lateralis to conditions mimicking quiescent muscle and fatiguing levels of acidosis (H ) (pH 6.2) and inorganic phosphate (P ) (30 mm). The fatigue-mimicking condition caused marked reductions in force, shortening velocity and power and inhibited the low- to high-force state of the cross-bridge cycle, confirming findings from non-human studies that these ions act synergistically to impair cross-bridge function. Other than severe age-related atrophy of fast fibres (-55%), contractile function and the depressive effects of the fatigue-mimicking condition did not differ in fibres from young and old men. The selective loss of fast myosin heavy chain II muscle was strongly associated with the age-related decrease in isometric torque (r = 0.785) and power (r = 0.861). These data suggest that the age-related loss in muscle strength and power are primarily determined by the atrophy of fast fibres, but the age-related increased fatigability cannot be explained by an increased sensitivity of the cross-bridge to H and P .
要点
导致肌肉力量下降和疲劳增加的机制仍未得到解决。我们发现,与年轻人相比,老年人股外侧肌纤维的收缩力学保持良好,但快肌肌球蛋白重链 II 型的选择性丧失与与年龄相关的肌肉力量和力量下降强烈相关。我们揭示了酸中毒(H+)和无机磷酸盐(P i )的组合通过抑制横桥循环的低到高力状态和峰值功率,是人类肌肉疲劳的一个重要介质,但这些离子对横桥功能的抑制作用在年轻人和老年人的纤维中相似。这些发现表明,与年龄相关的肌肉力量下降主要取决于快纤维的萎缩,但与年龄相关的疲劳增加不能用横桥对 H+和 P i 的敏感性增加来解释。
摘要
本研究旨在通过整合整体肌肉功能和单纤维收缩力学来确定导致肌肉力量下降和疲劳增加的机制。调整老年人(73-89 岁,n=6)与年轻人(20-29 岁,n=6)相比肌肉质量减少 22%后,膝关节伸肌的等长扭矩和功率输出分别降低 38%和 53%。疲劳性增加了约 2.7 倍,与电诱发收缩特性的降低密切相关。为了测试横桥机制是否可以解释与年龄相关的膝关节伸肌功能下降,我们将股外侧肌的肌纤维(n=254)暴露于模拟静止肌肉和疲劳酸中毒(H+)(pH 6.2)和无机磷酸盐(P i )(30 mm)的条件下。疲劳模拟条件导致力、缩短速度和功率明显降低,并抑制了横桥循环的低到高力状态,证实了非人类研究的结果,即这些离子协同作用以损害横桥功能。除了快纤维的严重年龄相关性萎缩(-55%)之外,年轻人和老年人纤维的收缩功能和疲劳模拟条件的抑制作用没有差异。快肌肌球蛋白重链 II 型的选择性丧失与等长扭矩(r=0.785)和功率(r=0.861)的年龄相关性下降密切相关。这些数据表明,与年龄相关的肌肉力量和力量下降主要取决于快纤维的萎缩,但与年龄相关的疲劳增加不能用横桥对 H+和 P i 的敏感性增加来解释。
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