Leucocytes, cytokines and satellite cells: what role do they play in muscle damage and regeneration following eccentric exercise?

IF 3.5 4区 医学 Q2 IMMUNOLOGY
Exercise Immunology Review Pub Date : 2012-01-01
Gøran Paulsen, Ulla Ramer Mikkelsen, Truls Raastad, Jonathan M Peake
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引用次数: 0

Abstract

Exercise-induced muscle damage is an important topic in exercise physiology. However several aspects of our understanding of how muscles respond to highly stressful exercise remain unclear In the first section of this review we address the evidence that exercise can cause muscle damage and inflammation in otherwise healthy human skeletal muscles. We approach this concept by comparing changes in muscle function (i.e., the force-generating capacity) with the degree of leucocyte accumulation in muscle following exercise. In the second section, we explore the cytokine response to 'muscle-damaging exercise', primarily eccentric exercise. We review the evidence for the notion that the degree of muscle damage is related to the magnitude of the cytokine response. In the third and final section, we look at the satellite cell response to a single bout of eccentric exercise, as well as the role of the cyclooxygenase enzymes (COX1 and 2). In summary, we propose that muscle damage as evaluated by changes in muscle function is related to leucocyte accumulation in the exercised muscles. 'Extreme' exercise protocols, encompassing unaccustomed maximal eccentric exercise across a large range of motion, generally inflict severe muscle damage, inflammation and prolonged recovery (> 1 week). By contrast, exercise resembling regular athletic training (resistance exercise and downhill running) typically causes mild muscle damage (myofibrillar disruptions) and full recovery normally occurs within a few days. Large variation in individual responses to a given exercise should, however be expected. The link between cytokine and satellite cell responses and exercise-induced muscle damage is not so clear The systemic cytokine response may be linked more closely to the metabolic demands of exercise rather than muscle damage. With the exception of IL-6, the sources of systemic cytokines following exercise remain unclear The satellite cell response to severe muscle damage is related to regeneration, whereas the biological significance of satellite cell proliferation after mild damage or non-damaging exercise remains uncertain. The COX enzymes regulate satellite cell activity, as demonstrated in animal models; however the roles of the COX enzymes in human skeletal muscle need further investigation. We suggest using the term 'muscle damage' with care. Comparisons between studies and individuals must consider changes in and recovery of muscle force-generating capacity.

白细胞、细胞因子和卫星细胞:它们在偏心运动后的肌肉损伤和再生中起什么作用?
运动引起的肌肉损伤是运动生理学中的一个重要课题。然而,我们对肌肉如何应对高压力运动的理解有几个方面仍然不清楚。在本综述的第一部分,我们讨论了运动可以导致肌肉损伤和炎症的证据,否则健康的人类骨骼肌。我们通过比较运动后肌肉功能(即发力能力)的变化与肌肉中白细胞积累的程度来探讨这一概念。在第二部分中,我们探讨了细胞因子对“肌肉损伤运动”的反应,主要是偏心运动。我们回顾证据的概念,肌肉损伤的程度与细胞因子反应的大小有关。在第三部分也是最后一部分,我们研究了卫星细胞对单次偏心运动的反应,以及环氧化酶(COX1和2)的作用。总之,我们提出,通过肌肉功能变化评估的肌肉损伤与运动肌肉中的白细胞积累有关。“极限”运动方案,包括不习惯的大范围运动的最大偏心运动,通常会造成严重的肌肉损伤、炎症和长时间的恢复(> 1周)。相比之下,类似于常规运动训练的运动(抗阻运动和下坡跑步)通常会导致轻微的肌肉损伤(肌纤维断裂),通常在几天内就能完全恢复。然而,对于给定的练习,个体的反应会有很大的差异,这是可以预料的。细胞因子和卫星细胞反应与运动引起的肌肉损伤之间的联系尚不清楚。全身细胞因子反应可能与运动的代谢需求联系更密切,而不是肌肉损伤。除IL-6外,运动后全身细胞因子的来源尚不清楚。卫星细胞对严重肌肉损伤的反应与再生有关,而轻度损伤或非损伤性运动后卫星细胞增殖的生物学意义尚不确定。COX酶调节卫星细胞活性,这在动物模型中得到证实;然而,COX酶在人体骨骼肌中的作用有待进一步研究。我们建议谨慎使用“肌肉损伤”一词。研究和个人之间的比较必须考虑肌肉发力能力的变化和恢复。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Exercise Immunology Review
Exercise Immunology Review 医学-免疫学
CiteScore
16.00
自引率
0.00%
发文量
7
期刊介绍: Exercise Immunology Review (EIR) serves as the official publication of the International Society of Exercise and Immunology and the German Society of Sports Medicine and Prevention. It is dedicated to advancing knowledge in all areas of immunology relevant to acute exercise and regular physical activity. EIR publishes review articles and papers containing new, original data along with extensive review-like discussions. Recognizing the diverse disciplines contributing to the understanding of immune function, the journal adopts an interdisciplinary approach, facilitating the dissemination of research findings from fields such as exercise sciences, medicine, immunology, physiology, behavioral science, endocrinology, pharmacology, and psychology.
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