BACKGROUND: If the volume of training undertaken is sufficient to induce a negative energy balance, the anticipated benefit of an enhanced immune response may be reduced or lost. METHODS: 33 sedentary but healthy male volunteers aged 19-29 years, recruited from the university community. A peak oxygen intake measurement (cycle ergometer) and a 60-min exercise challenge at 60% of aerobic power were performed before and after 12 wk of treatment. Total leukocytes, subsets, CD3+, CD4+, CD8+, CD16+, CD19+, and CD25+ counts (FACScan), cytolytic activity (51Cr release) and cell proliferation (PHA and PWM) were measured, with subjects assigned arbitrarily to one of three groups: light training (18 subjects, aerobic exercise at 70-85% HRmax 3 times/wk), moderate training (9 subjects, similar programme 4-5 times/wk) and control (6 subjects). RESULTS: Groups were initially well-matched in physical and physiological terms. Training increased aerobic power (8%, light, 21% moderate training), with a loss of body mass and fat in the moderate training group. Controls showed no changes. Resting CD16+ counts increased by 27% (light training) and CD16+ CD56+ counts by 21% (moderate training), with less post-exercise suppression of counts than at recruitment. Light training also decreased CD3+ and CD4+ counts without changing the CD4+/CD8+ ratio. Moderate training decreased resting CD19+ count. CONCLUSIONS: From the viewpoint of immune function, the optimal training regimen is of low volume. Moderate training sufficient to induce a negative energy balance yields a smaller increase in numbers of non-MHC-restricted cytotoxic cells, and carries the negative consequence of diminished B cell counts.
BACKGROUND: If the volume of training undertaken is sufficient to induce a negative energy balance, the anticipated benefit of an enhanced immune response may be reduced or lost. METHODS: 33 sedentary but healthy male volunteers aged 19-29 years, recruited from the university community. A peak oxygen intake measurement (cycle ergometer) and a 60-min exercise challenge at 60% of aerobic power were performed before and after 12 wk of treatment. Total leukocytes, subsets, CD3+, CD4+, CD8+, CD16+, CD19+, and CD25+ counts (FACScan), cytolytic activity (51Cr release) and cell proliferation (PHA and PWM) were measured, with subjects assigned arbitrarily to one of three groups: light training (18 subjects, aerobic exercise at 70-85% HRmax 3 times/wk), moderate training (9 subjects, similar programme 4-5 times/wk) and control (6 subjects). RESULTS: Groups were initially well-matched in physical and physiological terms. Training increased aerobic power (8%, light, 21% moderate training), with a loss of body mass and fat in the moderate training group. Controls showed no changes. Resting CD16+ counts increased by 27% (light training) and CD16+ CD56+ counts by 21% (moderate training), with less post-exercise suppression of counts than at recruitment. Light training also decreased CD3+ and CD4+ counts without changing the CD4+/CD8+ ratio. Moderate training decreased resting CD19+ count. CONCLUSIONS: From the viewpoint of immune function, the optimal training regimen is of low volume. Moderate training sufficient to induce a negative energy balance yields a smaller increase in numbers of non-MHC-restricted cytotoxic cells, and carries the negative consequence of diminished B cell counts.
Authors: Giselle Soares Passos; Dalva Poyares; Marcos Gonçalves Santana; Alexandre Abílio de Souza Teixeira; Fábio Santos Lira; Shawn D Youngstedt; Ronaldo Vagner Thomatieli dos Santos; Sergio Tufik; Marco Túlio de Mello Journal: Biomed Res Int Date: 2014-09-21 Impact factor: 3.411
Authors: José Augusto Rodrigues Santos; Tiago Azenha Rama; Domingos José Lopes da Silva; Ricardo J Fernandes; Rodrigo Zacca Journal: Life (Basel) Date: 2022-05-30
Authors: Daniel D Shill; W Michael Southern; T Bradley Willingham; Kasey A Lansford; Kevin K McCully; Nathan T Jenkins Journal: J Physiol Date: 2016-09-18 Impact factor: 5.182