17天卧床休息后，人类比目鱼肌中细肌丝的不成比例损失。

Disproportionate loss of thin filaments in human soleus muscle after 17-day bed rest.

作者信息

Riley D A, Bain J L, Thompson J L, Fitts R H, Widrick J J, Trappe S W, Trappe T A, Costill D L

机构信息

Department of Cell Biology, Neurobiology & Anatomy, Medical College of Wisconsin, Milwaukee, USA.

出版信息

Muscle Nerve. 1998 Oct;21(10):1280-9. doi: 10.1002/(sici)1097-4598(199810)21:10<1280::aid-mus6>3.0.co;2-7.

DOI:10.1002/(sici)1097-4598(199810)21:10<1280::aid-mus6>3.0.co;2-7

PMID:9736056

Abstract

Previously we reported that, after 17-day bed rest unloading of 8 humans, soleus slow fibers atrophied and exhibited increased velocity of shortening without fast myosin expression. The present ultrastructural study examined fibers from the same muscle biopsies to determine whether decreased myofilament packing density accounted for the observed speeding. Quantitation was by computer-assisted morphometry of electron micrographs. Filament densities were normalized for sarcomere length, because density depends directly on length. Thick filament density was unchanged by bed rest. Thin filaments/microm2 decreased 16-23%. Glycogen filled the I band sites vacated by filaments. The percentage decrease in thin filaments (Y) correlated significantly (P < 0.05) with the percentage increase in velocity (X), (Y = 0.1X + 20%, R2 = 0.62). An interpretation is that fewer filaments increases thick to thin filament spacing and causes earlier cross-bridge detachment and faster cycling. Increased velocity helps maintain power (force x velocity) as atrophy lowers force. Atrophic muscles may be prone to sarcomere reloading damage because force/microm2 was near normal, and force per thin filament increased an estimated 30%.

摘要

此前我们报道过，8名受试者经过17天卧床休息去负荷后，比目鱼肌慢肌纤维发生萎缩，且在未出现快肌球蛋白表达的情况下缩短速度加快。本超微结构研究检查了取自相同肌肉活检样本的纤维，以确定肌丝堆积密度降低是否是观察到的速度加快的原因。通过对电子显微镜照片进行计算机辅助形态测量来进行定量分析。由于密度直接取决于长度，因此将丝密度按肌节长度进行标准化。卧床休息后粗肌丝密度未发生变化。细肌丝/平方微米减少了16 - 23%。糖原填充了肌丝腾出的I带区域。细肌丝减少的百分比（Y）与速度增加的百分比（X）显著相关（P < 0.05），（Y = 0.1X + 20%，R2 = 0.62）。一种解释是，较少的肌丝增加了粗肌丝与细肌丝之间的间距，导致更早的横桥脱离和更快的循环。随着萎缩使力量降低，速度增加有助于维持功率（力×速度）。萎缩的肌肉可能易于发生肌节重新加载损伤，因为每平方微米的力接近正常，且每条细肌丝的力估计增加了30%。

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17天卧床休息后，人类比目鱼肌中细肌丝的不成比例损失。

Disproportionate loss of thin filaments in human soleus muscle after 17-day bed rest.

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