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在为期21天的卧床休息期间,乳清蛋白加碳酸氢盐补充剂对骨骼肌废用时的结构萎缩和蛋白水解标志物免疫模式几乎没有影响。

Whey protein plus bicarbonate supplement has little effects on structural atrophy and proteolysis marker immunopatterns in skeletal muscle disuse during 21 days of bed rest.

作者信息

Blottner D, Bosutti A, Degens H, Schiffl G, Gutsmann M, Buehlmeier J, Rittweger J, Ganse B, Heer M, Salanova M

机构信息

Charité Universitätsmedizin Berlin, Vegetative Anatomy.

出版信息

J Musculoskelet Neuronal Interact. 2014 Dec;14(4):432-44.

PMID:25524969
Abstract

OBJECTIVES

To investigate the effect of whey protein plus potassium bicarbonate supplement on disused skeletal muscle structure and proteolysis after bed rest (BR).

METHODS

Soleus (SOL) and vastus lateralis (VL) biopsies were sampled from ten (n=10) healthy male subjects (aged 31±6 years) who did BR once with and once without protein supplement as a dietary countermeasure (cross-over study design). The structural changes (myofibre size and type distribution) were analysed by histological sections, and muscle protein breakdown indirectly via the proteolysis markers, calpain 1 and 3, calpastatin, MuRF1 and 2, both in muscle homogenates and by immunohistochemistry.

RESULTS

BR caused size-changes in myofiber cross-sectional area (FCSA, SOL, p=0,004; VL, p=0.03), and myofiber slow-to-fast type transition with increased hybrids (SOL, p=0.043; VL, p=0.037) however with campaign differences in SOL (p<0.033). No significant effect of BR and supplement was found by any of the key proteolysis markers.

CONCLUSIONS

Campaign differences in structural muscle adaptation may be an issue in cross-over design BR studies. The whey protein plus potassium bicarbonate supplement did not attenuate atrophy and fibre type transition during medium term bed rest. Alkaline whey protein supplements may however be beneficial as adjuncts to exercise countermeasures in disuse.

摘要

目的

研究乳清蛋白加碳酸氢钾补充剂对卧床休息(BR)后废用骨骼肌结构和蛋白水解的影响。

方法

从10名(n = 10)健康男性受试者(年龄31±6岁)身上采集比目鱼肌(SOL)和股外侧肌(VL)活检样本,这些受试者进行过两次卧床休息,一次有蛋白质补充作为饮食对策,一次没有(交叉研究设计)。通过组织学切片分析结构变化(肌纤维大小和类型分布),并通过蛋白水解标记物、钙蛋白酶1和3、钙蛋白酶抑制蛋白、肌肉萎缩相关蛋白1和2,在肌肉匀浆和免疫组织化学中间接分析肌肉蛋白质分解。

结果

卧床休息导致肌纤维横截面积(FCSA)发生大小变化(比目鱼肌,p = 0.004;股外侧肌,p = 0.03),以及肌纤维从慢肌型向快肌型转变,杂种肌纤维增加(比目鱼肌,p = 0.043;股外侧肌,p = 0.037),但比目鱼肌存在运动差异(p < 0.033)。任何关键蛋白水解标记物均未发现卧床休息和补充剂有显著影响。

结论

在交叉设计的卧床休息研究中,肌肉结构适应的运动差异可能是一个问题。乳清蛋白加碳酸氢钾补充剂在中期卧床休息期间并未减轻萎缩和纤维类型转变。然而,碱性乳清蛋白补充剂作为废用运动对策的辅助手段可能有益。

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