Acute response and subcellular movement of HSP27, αB-crystallin and HSP70 in human skeletal muscle after blood-flow-restricted low-load resistance exercise
K. T. Cumming, G. Paulsen, M. Wernbom, I. Ugelstad, T. Raastad
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引用次数: 64
Abstract
Aim
Heat-shock proteins (HSP) are important chaperones for stressed and damaged proteins. Low-load blood-flow-restricted resistance exercise (BFRE) is generally believed not to induce significant muscle damage, but is hitherto unverified with intracellular markers. Consequently, the aim of this study was to investigate the HSP response after BFRE in human skeletal muscle.
Methods
Nine healthy volunteers performed five sets to failure of unilateral knee extension at 30% of 1RM with partial blood-flow restriction. The contralateral leg performed the same work with free blood flow. Muscle biopsies were collected before exercise, 1, 24 and 48 h after exercise and analysed for HSP27, αB-crystallin, HSP70, desmin, glycogen content and myosin heavy chain by immunohistochemistry, ELISA and western blotting.
Results
One hour after exercise, HSP27 and αB-crystallin levels were reduced in the cytosolic and increased in the cytoskeletal fraction in the BFRE leg. HSP70 showed a delayed response and was increased over 48 h in the BFRE leg. Immunohistochemical analyses showed higher staining intensity of HSP70 in type 1 fibres in the BFRE leg at 24 and 48 h post-exercise. PAS staining showed decreased glycogen levels after BFRE, and interestingly, glycogen was still depleted 48 h after exercise in the same fibres displaying high HSP70 staining (type 1 fibres).
Conclusion
Translocation of HSP27 and αB-crystallin from cytosol to cytoskeletal structures indicates that cytoskeletal proteins are stressed during BFRE. However, overt signs of myofibrillar disruptions were not observed. Interestingly, the stress response was more pronounced in type 1 than in type 2 fibres and coincided with low glycogen levels.
血流量受限低负荷阻力运动后人体骨骼肌HSP27、α b -结晶蛋白和HSP70的急性反应和亚细胞运动
目的热休克蛋白(HSP)是应激损伤蛋白的重要伴侣蛋白。低负荷血流量限制阻力运动(BFRE)通常被认为不会引起显著的肌肉损伤,但迄今尚未得到细胞内标记物的证实。因此,本研究的目的是研究人体骨骼肌在BFRE后的热休克反应。方法9名健康志愿者在1RM为30%时行5组单侧膝关节伸展失败,部分血流受限。在自由血流的情况下,对侧腿做同样的工作。分别于运动前、运动后1、24、48 h采集肌肉组织切片,采用免疫组化、ELISA和western blotting检测热休克蛋白(HSP27)、α b -晶体蛋白(αB-crystallin)、热休克蛋白(HSP70)、去蛋白蛋白(desmin)、糖原含量和肌球蛋白重链。结果运动1 h后,BFRE腿胞浆中HSP27和α b -晶体蛋白水平降低,细胞骨架部分HSP27和α b -晶体蛋白水平升高。HSP70表现出延迟反应,并且在BFRE腿部的48小时内升高。免疫组织化学分析显示,运动后24和48小时,BFRE腿部1型纤维中HSP70的染色强度较高。PAS染色显示BFRE后糖原水平降低,有趣的是,运动后48小时,在同一纤维中显示高HSP70染色(1型纤维)的糖原仍然耗尽。结论HSP27和α b -晶体蛋白从细胞质溶胶转移到细胞骨架结构表明细胞骨架蛋白在BFRE过程中受到胁迫。然而,没有观察到明显的肌纤维断裂迹象。有趣的是,1型纤维的应激反应比2型纤维更明显,并且与低糖原水平相吻合。
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