Creatine Supplementation Alleviates Fatigue after Exercise through Anti-Inflammatory Action in Skeletal Muscle and Brain

Y. Yokota, Satoshi Yamada, Daisuke Yamamoto, Keita Kato, Akihisa Morito, A. Takaoka
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引用次数: 1

Abstract

Eccentric exercise induces muscle damage and inflammation, resulting in a state of reduced physical activity with muscle dysfunction and a feeling of tiredness after exercise. Creatine is known to act as an energy buffer, but it has also been suggested to exert inhibitory effects on muscle damage and peripheral inflammation. The purpose of this study was to test the hypothesis that creatine supplementation alleviates fatigue after eccentric exercise and to explore the mechanism of this effect. C57BL/6J mice were fed an AIN-93G-formulated control diet or a creatine-containing diet for 6 days and were then subjected to downhill running, a model of eccentric exercise, to assess the effects on the total creatine concentrations in skeletal muscle and brain tissue, spontaneous activity, the urine concentration of titin N-fragment, and inflammatory gene expression. The results showed that creatine supplementation significantly increased the total creatine concentrations in skeletal muscle and brain tissue. Furthermore, spontaneous activity significantly decreased after downhill running and creatine supplementation maintained a significantly higher level of spontaneous activity. In addition, creatine supplementation significantly suppressed the downhill-running-induced increase in the mRNA expression of genes encoding ICAM-1, E-selectin, CD18, and BKB1R in the soleus muscle and IL-1β in the hypothalamus. On the other hand, creatine supplementation did not clearly influence the urine concentration of titin N-fragment. These results indicate that creatine supplementation may alleviate fatigue after eccentric exercise by partially suppressing inflammation in slow-twitch skeletal muscle and brain tissue.
补充肌酸通过骨骼肌和大脑的抗炎作用缓解运动后的疲劳
偏心运动会导致肌肉损伤和炎症,导致身体活动减少,肌肉功能障碍,运动后感到疲劳。众所周知,肌酸是一种能量缓冲物质,但也有人认为它对肌肉损伤和外周炎症具有抑制作用。本研究的目的是验证补充肌酸可以缓解偏心运动后疲劳的假设,并探讨这种作用的机制。C57BL/6J小鼠喂食AIN-93形成的对照饮食或含肌酸的饮食6天,然后进行下坡跑(一种偏心运动模型),以评估对骨骼肌和脑组织中总肌酸浓度、自发活动、titin N片段的尿液浓度和炎性基因表达的影响。结果表明,补充肌酸显著增加了骨骼肌和脑组织中的总肌酸浓度。此外,下坡跑后自发活动显著减少,补充肌酸保持了显著较高的自发活动水平。此外,补充肌酸显著抑制了下坡跑诱导的比目鱼肌ICAM-1、E-选择素、CD18和BKB1R基因以及下丘脑IL-1β基因mRNA表达的增加。另一方面,补充肌酸对尿中titin N-片段的浓度没有明显影响。这些结果表明,补充肌酸可以通过部分抑制慢抽搐骨骼肌和脑组织的炎症来缓解偏心运动后的疲劳。
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