Oscar Horwath, Kristoffer Toldnes Cumming, Einar Eftestøl, Björn Ekblom, Paul Ackermann, Truls Raastad, Kristian Gundersen, Niklas Psilander
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Muscle biopsies were obtained from the lateral part of the gastrocnemius before and after 6 wk of immobilization using a plaster cast and orthosis. Muscle fiber characteristics were analyzed in tissue cross-sections and isolated single fibers using immunofluorescence and high-resolution microscopy. Immobilization did not change muscle fiber type composition nor cross-sectional area of type I or type II fibers, but muscle fiber volume tended to decline by 13% (<i>P</i> = 0.077). After immobilization, the volume per myonucleus was significantly reduced by 20% (<i>P</i> = 0.008). Myonuclei were not lost in response to immobilization but tended to increase in single fibers and type II fibers. No significant changes were observed for satellite cells or capillaries. Myonuclei were not lost in the gastrocnemius muscle after a prolonged period of immobilization, which may provide support to the myonuclear permanence hypothesis in human muscle. 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引用次数: 0
摘要
肌肉废用会迅速影响肌肉质量和整体健康,并使人衰弱,因此从科学和临床角度来看都是一个重要问题。然而,人们尚未完全了解肌肉细胞对肌肉废用的适应性,尤其是与肌核永久性假说有关的适应性。因此,在本研究中,我们评估了跟腱断裂后固定一段时间后人体腓肠肌的纤维大小、肌核数量、卫星细胞和毛细血管。我们招募了六名参加体育锻炼的患者(5M/1F,43{加减}15岁),他们都是单侧跟腱急性断裂患者。在使用石膏和矫形器固定六周之前和之后,分别从腓肠肌外侧部位获取肌肉活检组织。使用免疫荧光和高分辨率显微镜分析了组织横截面和分离的单个纤维的肌肉纤维特征。固定并没有改变肌肉纤维类型组成,也没有改变 I 型或 II 型纤维的横截面积,但肌肉纤维体积有下降 13% 的趋势(p=0.077)。固定后,每个肌核的体积显著减少了20%(p=0.008)。肌核并没有因固定而丢失,但在单纤维和 II 型纤维中却有增加的趋势。卫星细胞和毛细血管没有明显变化。腓肠肌的肌核在长时间固定后没有丢失,这可能为人类肌肉中的肌核永久性假说提供了支持。毛细血管在整个固定期间保持稳定,而卫星细胞的反应则各不相同,尤其是在 II 型纤维中。
No detectable loss of myonuclei from human muscle fibers after 6 wk of immobilization following an Achilles tendon rupture.
Muscle disuse has rapid and debilitating effects on muscle mass and overall health, making it an important issue from both scientific and clinical perspectives. However, the myocellular adaptations to muscle disuse are not yet fully understood, particularly those related to the myonuclear permanence hypothesis. Therefore, in this study, we assessed fiber size, number of myonuclei, satellite cells, and capillaries in human gastrocnemius muscle after a period of immobilization following an Achilles tendon rupture. Six physically active patients (5 males/1 female, 43 ± 15 yr) were recruited to participate after sustaining an acute unilateral Achilles tendon rupture. Muscle biopsies were obtained from the lateral part of the gastrocnemius before and after 6 wk of immobilization using a plaster cast and orthosis. Muscle fiber characteristics were analyzed in tissue cross-sections and isolated single fibers using immunofluorescence and high-resolution microscopy. Immobilization did not change muscle fiber type composition nor cross-sectional area of type I or type II fibers, but muscle fiber volume tended to decline by 13% (P = 0.077). After immobilization, the volume per myonucleus was significantly reduced by 20% (P = 0.008). Myonuclei were not lost in response to immobilization but tended to increase in single fibers and type II fibers. No significant changes were observed for satellite cells or capillaries. Myonuclei were not lost in the gastrocnemius muscle after a prolonged period of immobilization, which may provide support to the myonuclear permanence hypothesis in human muscle. Capillaries remained stable throughout the immobilization period, whereas the response was variable for satellite cells, particularly in type II fibers.NEW & NOTEWORTHY The impact of prolonged immobilization on muscle fiber characteristics is difficult to study in humans and therefore remains poorly understood. We analyzed cross-sections and single fibers from gastrocnemius before and after 6 wk of immobilization due to an Achilles tendon rupture. Our data suggest that myonuclei are not lost in response to such stimuli, thus lending support to the hypothesis of myonuclear permanency in human muscle.
期刊介绍:
The American Journal of Physiology-Cell Physiology is dedicated to innovative approaches to the study of cell and molecular physiology. Contributions that use cellular and molecular approaches to shed light on mechanisms of physiological control at higher levels of organization also appear regularly. Manuscripts dealing with the structure and function of cell membranes, contractile systems, cellular organelles, and membrane channels, transporters, and pumps are encouraged. Studies dealing with integrated regulation of cellular function, including mechanisms of signal transduction, development, gene expression, cell-to-cell interactions, and the cell physiology of pathophysiological states, are also eagerly sought. Interdisciplinary studies that apply the approaches of biochemistry, biophysics, molecular biology, morphology, and immunology to the determination of new principles in cell physiology are especially welcome.