The effects of exercise on complement system proteins in humans: a systematic scoping review.

IF 3.5 4区医学 Q2 IMMUNOLOGY

Exercise Immunology Review Pub Date : 2022-01-01

Daniela Rothschild-Rodriguez, Adam J Causer, Frankie F Brown, Harrison D Collier-Bain, Sally Moore, James Murray, James E Turner, John P Campbell

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引用次数: 0

Abstract

Background: The complement system is comprised of the classical, lectin and alternative pathways that result in the formation of: pro-inflammatory anaphylatoxins; opsonins that label cells for phagocytic removal; and, a membrane attack complex that directly lyses target cells. Complement-dependent cytotoxicity (CDC) - cell lysis triggered by complement protein C1q binding to the Fc region of antibodies bound to target cells - is another effector function of complement and a key mechanism-of-action of several monoclonal antibody therapies. At present, it is not well established how exercise affects complement system proteins in humans.

Methods: A systematic search was conducted to identify studies that included original data and investigated the association between soluble complement proteins in the blood of healthy humans, and: 1) an acute bout of exercise; 2) exercise training interventions; or, 3) measurements of habitual physical activity and fitness.

Results: 77 studies were eligible for inclusion in this review, which included a total of 10,236 participants, and 40 complement proteins and constituent fragments. Higher levels of exercise training and cardiorespiratory fitness were commonly associated with reduced C3 in blood. Additionally, muscle strength was negatively associated with C1q. Elevated C3a-des-Arg, C4a-des-Arg and C5a, lower C1-inhibitor, and unchanged C3 and C4 were reported immediately post-laboratory based exercise, compared to baseline. Whereas, ultra-endurance running and resistance training increased markers of the alternative (factor B and H), classical (C1s), and leptin (mannose binding lectin) pathways, as well as C3 and C6 family proteins, up to 72-h following exercise. Heterogeneity among studies may be due to discrepancies in blood sampling/handling procedures, analytical techniques, exercise interventions/measurements and fitness of included populations.

Conclusions: Increased anaphylatoxins were observed immediately following an acute bout of exercise in a laboratory setting, whereas field-based exercise interventions of a longer duration (e.g. ultra-endurance running) or designed to elicit muscle damage (e.g. resistance training) increased complement proteins for up to 72-h. C3 in blood was mostly reduced by exercise training and associated with increased cardiorespiratory fitness, whereas C1q appeared to be negatively associated to muscle strength. Thus, both acute bouts of exercise and exercise training appear to modulate complement system proteins. Future research is needed to assess the clinical implications of these changes, for example on the efficacy of monoclonal antibody therapies dependent on CDC.

本刊更多论文

运动对人体补体系统蛋白的影响：一项系统的范围审查。

背景：补体系统由经典、凝集素和其他途径组成，导致：促炎过敏毒素的形成；调理素，标记细胞以供吞噬清除；还有一种膜攻击复合物，可以直接裂解目标细胞。补体依赖性细胞毒性(CDC) -由补体蛋白C1q结合靶细胞抗体Fc区引发的细胞裂解-是补体的另一种效应功能，也是几种单克隆抗体治疗的关键作用机制。目前，运动对人体补体系统蛋白的影响尚不清楚。方法：进行系统搜索，以确定包括原始数据的研究，并调查健康人类血液中可溶性补体蛋白与：1)急性运动；2)运动训练干预；或者，3)测量习惯性的身体活动和健康。结果：77项研究符合纳入本综述的条件，其中包括10236名参与者，40个补体蛋白和组成片段。高水平的运动训练和心肺健康通常与血液中C3的减少有关。此外，肌肉力量与C1q呈负相关。与基线相比，实验室运动后立即报告C3a-des-Arg， C4a-des-Arg和C5a升高，c1抑制剂降低，C3和C4不变。然而，超耐力跑步和阻力训练在运动后72小时内增加了替代（因子B和H），经典（C1s）和瘦素（甘露糖结合凝集素）途径以及C3和C6家族蛋白的标记物。研究之间的异质性可能是由于血液采样/处理程序、分析技术、运动干预/测量和纳入人群的健康状况的差异。结论：在实验室环境中，急性运动后立即观察到过敏毒素增加，而较长时间（如超耐力跑步）或旨在引起肌肉损伤（如阻力训练）的现场运动干预可增加补体蛋白长达72小时。血液中的C3主要通过运动训练降低，并与心肺健康的增加有关，而C1q似乎与肌肉力量呈负相关。因此，急性运动和运动训练似乎都能调节补体系统蛋白。未来的研究需要评估这些变化的临床意义，例如依赖于CDC的单克隆抗体治疗的疗效。

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 医学-免疫学

CiteScore

16.00

自引率

0.00%

发文量

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.