de Souza Teixeira Alexandre Abilio, Minuzzi Luciele Guerra, Lira Fabio Santos, Gonçalves Ana Sofia Vieira Pereira, Martinho António, Rosa Neto José Cesar, Teixeira Ana Maria
Immunometabolism Research Group, Department of Cell and Developmental Biology, Institute of Biomedical Sciences, Universidade de São Paulo (USP), São Paulo, Brazil.
Exercise and Immunometabolism Research Group, Postgraduation Program in Movement Sciences, Department of Physical Education, Universidade Estadual Paulista (UNESP), Presidente Prudente, São Paulo, Brazil.
Exerc Immunol Rev. 2021;27:67-83.
Ageing is associated with alterations in the immune system as well as with alterations of the circadian rhythm. Immune cells show rhythmicity in execution of their tasks. Chronic inflammation (inflammaging), which is observed in the elderly, is mitigated by lifelong exercise. The aimed this study was to determine the acute effect of a maximal exercise test on clock genes, regulatory proteins and cytokine expression, and evaluate the effect of lifelong exercise on the expression of clock genes in subpopulations of effector-memory (EM) CD4+ and CD8+T cells and the association of these processes with the inflammatory profile. Therefore, this study aimed to investigate the expression of clock genes in subpopulations of effector memory (EM) CD4+ and CD8+ T cells in master athletes and healthy controls and further associate them with systemic inflammatory responses to acute exercise.
The study population comprised national and international master athletes (n = 18) involved in three sports (athletics, swimming and judo). The control group (n = 8) comprised untrained healthy volunteers who had not participated in any regular and competitive physical exercise in the past 20 years. Anthropometric measurements and blood samples were taken before (Pre), 10 min after (Post) and 1 h after (1 h Post) a maximal cycle ergometer test for the determination of maximum oxygen consumption (VO2 max). The subpopulations of EM CD4+ and CD8+ T cells were purified using fluorescenceactivated cell sorting. RNA extraction of clock genes (CLOCK, BMAL1, PER1, PER2, CRY1, CRY2, REV-ERBα, REV-ERBβ, RORa, RORb and RORc) in EM CD4+ and EM CD8+ T cells as well as regulatory proteins (IL-4, IFN-γ, Tbx21, PD-1, Ki67, NF-kB, p53 and p21) in EM CD4+ T cells was performed. The serum concentration of cytokines (IL-8, IL-10, IL-12p70 and IL-17A) was measured.
The master athletes showed better physiological parameters than the untrained healthy controls (P < 0.05). The levels of cytokines increased in master athletes at Post compared with those at Pre. The IL-8 level was higher at 1 h Post, whereas the IL-10 and IL-12p70 levels returned to baseline. There was no change in IL-17A levels (P < 0.05). The clock genes were modulated differently in CD4+ T cells after an acute session of exercise in a training status-dependent manner.
The synchronization of clock genes, immune function and ageing presents new dimensions with interesting challenges. Lifelong athletes showed modified expression patterns of clock genes and cytokine production associated with the physical fitness level. Moreover, the acute bout of exercise altered the clock machinery mainly in CD4+ T cells; however, the clock gene expressions induced by acute exercise were different between the master athletes and control group.
衰老与免疫系统的改变以及昼夜节律的改变有关。免疫细胞在执行任务时表现出节律性。老年人中观察到的慢性炎症(炎症衰老)可通过终身运动得到缓解。本研究旨在确定最大运动试验对时钟基因、调节蛋白和细胞因子表达的急性影响,并评估终身运动对效应记忆(EM)CD4+和CD8+T细胞亚群中时钟基因表达的影响,以及这些过程与炎症特征的关联。因此,本研究旨在调查精英运动员和健康对照者中效应记忆(EM)CD4+和CD8+T细胞亚群中时钟基因的表达,并进一步将它们与急性运动的全身炎症反应相关联。
研究人群包括参与三项运动(田径、游泳和柔道)的国家和国际精英运动员(n = 18)。对照组(n = 8)由未经训练的健康志愿者组成,他们在过去20年中未参加过任何常规和竞技性体育锻炼。在最大运动功率测试前(Pre)、测试后10分钟(Post)和测试后1小时(1小时Post)采集人体测量数据和血样,以测定最大耗氧量(VO2 max)。使用荧光激活细胞分选技术纯化EM CD4+和CD8+T细胞亚群。对EM CD4+和EM CD8+T细胞中的时钟基因(CLOCK、BMAL1、PER1、PER2、CRY1、CRY2、REV-ERBα、REV-ERBβ、RORa、RORb和RORc)以及EM CD4+T细胞中的调节蛋白(IL-4、IFN-γ、Tbx21、PD-1、Ki67、NF-kB、p53和p·21)进行RNA提取。测量细胞因子(IL-8、IL-10、IL-12p70和IL-17A)的血清浓度。
精英运动员的生理参数优于未经训练的健康对照者(P < 0.05)。与Pre相比,精英运动员在Post时细胞因子水平升高。IL-8水平在1小时Post时更高,而IL-10和IL-12p70水平恢复到基线。IL-17A水平无变化(P < 0.05)。在急性运动后,时钟基因在CD4+T细胞中的调节方式因训练状态而异。
时钟基因、免疫功能和衰老的同步呈现出具有有趣挑战的新维度。终身运动员表现出与体能水平相关的时钟基因表达模式和细胞因子产生的改变。此外,急性运动主要改变了CD4+T细胞中的时钟机制;然而,精英运动员和对照组中急性运动诱导的时钟基因表达不同。
