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T-cell counts in response to acute cardiorespiratory or resistance exercise in physically active or physically inactive older adults: a randomized crossover study

A bout of resistance exercise did not elicit the same T-cell responses as a bout of walking on a treadmill, and the response was also not the same for people who participate in regular exercise compared with those who do not. Although there were several similarities, these potential differences unde...

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Published in:Journal of applied physiology (1985) 2022-07, Vol.133 (1), p.119-129
Main Authors: Graff, Rachel M., Jennings, Kristofer, LaVoy, Emily C. P., Warren, Victoria E., Macdonald, Brad W., Park, Yoonjung, Markofski, Melissa M.
Format: Article
Language:English
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Summary:A bout of resistance exercise did not elicit the same T-cell responses as a bout of walking on a treadmill, and the response was also not the same for people who participate in regular exercise compared with those who do not. Although there were several similarities, these potential differences underscore the importance of careful selection of exercise protocol based on the population studied and the desired T-cell response to exercise outcome. T cells often undergo age-related changes, which may be offset by regular exercise training. However, the majority of literature is derived from cardiorespiratory exercise studies. The purpose of this study was to examine the effects of acute cardiorespiratory exercise and acute resistance exercise on the T-cell response among physically active (PA) older adults compared with physically inactive (PI) older adults. Twenty-four healthy older adults [PA n = 12; PI n = 12; means ± SD; age (years) PA 62 ± 5, PI 64 ± 5; body mass index (BMI; kg/m 2 ) PA 23.9 ± 3.0, PI 25.6 ± 3.5] completed one bout each of matched intensity cardiorespiratory exercise and resistance exercise in a randomized order. Blood samples drawn preexercise, postexercise, and 1 h postexercise (recovery) were analyzed by flow cytometry for T cells and T-cell subsets. Resistance exercise mobilized more T-cell subsets in PI (10 of the measured types, including total T cells; CD45RA + CD62L + , CD45RA − CD62L + , CD45RA − CD62L − , and CD45RA + CD62L − T cells), whereas cardiorespiratory exercise mobilized more subsets in PA (CD45RA + CD62L − and CD57 + CD45RA + CD62L − CD4 + T cells). Both cardiorespiratory exercise and resistance exercise elicited a significant ( P < 0.05) mobilization of highly differentiated (CD45RA + CD62L − ; CD57 + CD45RA + CD62L − ) CD8 + T cells into the circulation postexercise in both PA and PI groups. Furthermore, cardiorespiratory exercise resulted in a decrease in the number of circulating Th17 cells postexercise, whereas resistance exercise increased Th17 cell mobilization compared with the cardiorespiratory exercise response. There are differences between cardiorespiratory exercise and resistance exercise on the immune responses of T cells, particularly in PI individuals. This research study was registered at clinicaltrials.gov NCT03794050. NEW & NOTEWORTHY A bout of resistance exercise did not elicit the same T-cell responses as a bout of walking on a treadmill, and the response was also not the same for people who partic
ISSN:8750-7587
1522-1601
DOI:10.1152/japplphysiol.00301.2021