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Abstract

Exercise trained individuals have greater immune system function, which may be attributed to enhanced peripheral blood mononuclear cells (PBMC) function. Exercise training is a potent stimulator of mitochondrial adaptation, which may explain improvements in immune system function. However, the mechanisms by which exercise acutely modulates PBMCs to lead toward beneficial adaptations remain unclear. PURPOSE: The purpose of this pilot was to test the hypothesis that exercise acutely modulates PBMC mitochondrial function. METHODS: Ten participants (eight males, two females, 22.81 ± 4.49 years) had blood drawn prior to a bout of exercise that included a graded exercise test (VO2max: 45.19 ± 1.85 mlO2/kg/min) followed by 30 minutes of cycling at 50% of maximum aerobic workload (160.0 ±39.09 W). Immediately following the exercise, blood was drawn again. PBMCs were isolated, counted, and placed in a high-resolution respirometer to assess mitochondrial respiratory capacity. Paired t-tests were conducted to compare respiratory states pre- and post-exercise. RESULTS: Cardiorespiratory fitness was not associated with coupled (r=0.19; p=0.59) or uncoupled (r=0.29; p=0.42) respiration. LEAK respiration was not different (p=0.43) between pre- (1.48 ± 0.67 pmol/(s*Mill)) and post- (1.14 ± 1.34 pmol/(s*Mill)) exercise. Acute exercise did not affect maximal coupled respiration (Pre: 20.25 ± 7.09 pmol/(s*Mill), Post: 18.10 ± 5.17 pmol/(s*Mill); p=0.22). However, acute exercise did impair maximal uncoupled respiration (Pre: 27.23 ± 11 pmol/(s*Mill), Post: 22.57 ± 7.08 pmol/(s*Mill); p=0.10). CONCLUSION: These data indicate that exercise likely acutely modulates uncoupled mitochondrial respiration in PBMCs. Importantly, the variability in the response to exercise is quite large, even in a small sample size of a relatively homogenous group. Future efforts are necessary to determine if these acute changes in mitochondrial respiratory capacity relate to long-term adaptations. Moreover, it is necessary to understand whether the same bout of exercise elicits a similar acute response in a broader range of fitness and age.

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