Moir Hannah, Butcher Lee, Jones Ken P, Hughes Michael G, Neale Huw, Jia Huidong, Al-Ismaily Zuleikha, Webb Richard
Cardiff School of Health Sciences, Centre for Biomedical Sciences, University of Wales Institute Cardiff, Cardiff, Wales CF5 2YB, UK.
Appl Physiol Nutr Metab. 2008 Feb;33(1):75-85. doi: 10.1139/H07-135.
There is much evidence that prolonged intense exercise suppresses the immune system. However, the intracellular biochemical mechanisms linking exercise and immunosuppression remain obscure. The purpose of this study was to investigate the hypothesis that exercise-induced inactivation of 5'AMP-activated protein kinase (AMPK) disrupts individual immune cell function, and thus may be linked to exercise-induced immunosuppression. To confirm AMPK's role in immune cells, AMPK activity was assessed in cultured monocytic Mono Mac 6 (MM6) cells. The effects of single bouts of intense exercise (45 min cycling; 70% VO2 max) on several immune parameters including mononuclear cell AMPK phosphorylation were investigated in 10 male volunteers. In vitro, the mitochondrial ATP synthase inhibitor oligomycin brought about transient decreases in cellular [ATP] (0.41+/-0.04 pmol/cell to 0.31+/-0.02 pmol/cell), and activation of AMPKalpha1 (170.7%+/-31.2% basal) and the glycolytic enzyme inducible phosphofructokinase 2 (iPFK-2) (225.0%+/-46.1% basal), with the latter effects coinciding with recovery from ATP depletion. In contrast, exercise-induced transient (approximately 1 h) decreases in AMPKalpha1 phosphorylation (64.4%+/-17.6% basal). This AMPK inactivation coincided with comparable transient decreases in other immune parameters (salivary IgA levels, serum cytokine levels, monocyte CD36 expression). Although the brief exercise bout employed here is not sufficient to cause full-fledged immunosuppression, exercise-induced transient decreases in mononuclear cell AMPK activation (as seen in this study) may cause energy depletion within individual immune cells, and therefore have an impact upon their ability to carry out their functions. Thus, we suggest that prolonged, repeated, high-intensity exercise that leads to clinically relevant immunosuppression may do so via AMPK inactivation within immune cells.
有大量证据表明,长时间的剧烈运动会抑制免疫系统。然而,将运动与免疫抑制联系起来的细胞内生化机制仍不清楚。本研究的目的是调查这样一个假设:运动诱导的5'AMP激活蛋白激酶(AMPK)失活会破坏单个免疫细胞的功能,因此可能与运动诱导的免疫抑制有关。为了证实AMPK在免疫细胞中的作用,在培养的单核细胞Mono Mac 6(MM6)细胞中评估了AMPK活性。在10名男性志愿者中,研究了单次剧烈运动(45分钟骑自行车;最大摄氧量的70%)对包括单核细胞AMPK磷酸化在内的几个免疫参数的影响。在体外,线粒体ATP合酶抑制剂寡霉素导致细胞内[ATP]短暂下降(从0.41±0.04 pmol/细胞降至0.31±0.02 pmol/细胞),并激活AMPKα1(为基础水平的170.7%±31.2%)和糖酵解酶诱导型磷酸果糖激酶2(iPFK-2)(为基础水平的225.0%±46.1%),后者的效应与ATP耗竭后的恢复同时发生。相比之下,运动诱导AMPKα1磷酸化短暂(约1小时)下降(为基础水平的64.4%±17.6%)。这种AMPK失活与其他免疫参数(唾液IgA水平、血清细胞因子水平、单核细胞CD36表达)的类似短暂下降同时发生。尽管这里采用的短暂运动不足以导致全面的免疫抑制,但运动诱导的单核细胞AMPK激活短暂下降(如本研究中所见)可能会导致单个免疫细胞内的能量耗竭,因此会影响它们执行功能的能力。因此,我们认为,导致临床相关免疫抑制的长时间、重复、高强度运动可能是通过免疫细胞内的AMPK失活来实现的。
