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DOI: 10.1055/s-0034-1370922
The Acute Response of Apoptosis and Migration to Resistance Exercise Is Protocol-Dependent
Publication History
accepted after revision 30 January 2014
Publication Date:
09 May 2014 (online)
Abstract
The aim of the present study was to compare the acute effects of resistance exercise (RE) designed for hypertrophy or local muscle endurance (LME) on CD4+ and CD8+ T cell apoptosis and migration. 14 untrained subjects (age 20.5±0.8 years, body mass 70.0±12.8 kg, body mass index 24.0±3.2 kg/m2), women (N=11) and men (N=3) completed 2 RE sessions (3 sets of 9 exercises) designed for hypertrophy at 10 repetitions maximum (RM) and LME at 60% of 10RM with 1-min rest-intervals between sets and exercises. The investigated lymphocytes were: CD4+, CD4+/CD69RA+, CD8+ and CD8+/CD69RA+ with cell surface markers annexin V and CX3CR1 analyzed by flow cytometry. Percentage of CD4+ positive for annexin V+ were higher immediately following and 24 h after the hypertrophy protocol as compared with LME, while CD4+ positive for CX3CR1 were higher immediately after and lower at the 24 h time point after LME as compared with the hypertrophy session. CD8+ lymphocytes responded similarly to the hypertrophy and LME protocols with elevations in both cellular migration and cell death immediately following and 24 h after the bouts (p≤0.05). Considering that the acute response of CD4+ lymphocytes to RE is protocol-dependent, a gradual adaptation to a hypertrophy program could minimize the effect on CD4+ lymphocytes and reduce the potential susceptibility to antigens during this timeframe. This would also be interesting for a RE program designed for LME based on the observed CD8+ lymphocyte response.
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References
- 1 American College of Sports, M., American college of sports medicine position stand . Progression models in resistance training for healthy adults. Med Sci Sports Exerc 2009; 41: 687-708
- 2 Asano RY, Levada-Pires AC, Moraes JFV, Sales MM, Coelho JM, Botelho Neto W, Bartholomeu Neto J, Tibana RA, Sousa JC, Prestes J, Simões HG, Pithon-Curi TC. American college sports medicine strength training and responses in beginners. JEPonline 2012; 15: 1-9
- 3 Harriss DJ, Atkinson G. Update 2014 – ethical standards in sport and exercise science research. Int J Sports Med 2013; 34: 1025-1028
- 4 Imai T, Hieshima K, Haskell C, Baba M, Nagira M, Nishimura M, Kakizaki M, Takagi S, Nomiyama H, Schall TJ, Yoshie O. Identification and molecular characterization of fractalkine receptor CX3CR1, which mediates both leukocyte migration and adhesion. Cell 1997; 91: 521-530
- 5 Kruger K, Agnischock S, Lechtermann A, Tiwari S, Mishra M, Pilat C, Wagner A, Tweddell C, Gramlich I, Mooren FC. Intensive resistance exercise induces lymphocyte apoptosis via cortisol and glucocorticoid receptordependent pathways. J Appl Physiol 2011; 110: 1226-1232
- 6 Navalta J, McFarlin B, Simpson R, Fedor E, Kell H, Lyons S, Arnett S, Schafer M. Finger-stick blood sampling methodology for the determination of exercise-induced lymphocyte apoptosis. J Vis Exp 2011; 24: 48
- 7 Navalta JW, Lyons S, Prestes J, Arnett SW, Schafer M, Sobrero GL. Exercise intensity and lymphocyte subset apoptosis. Int J Sports Med 2013; 34: 268-273
- 8 Navalta JW, Sedlock DA, Park KS, McFarlin BK. Neither gender nor menstrual cycle phase influences exercise-induced lymphocyte apoptosis in untrained subjects. Appl Physiol Nutr Metab 2007; 32: 481-486
- 9 Navarro F, Bacurau AV, Pereira GB, Araújo RC, Almeida SS, Moraes MR, Uchida MC, Costa Rosa LF, Navalta J, Prestes J, Bacurau RF. Moderate exercise increases the metabolism and immune function of lymphocytes in rats. Eur J Appl Physiol 2013; 113: 1343-1352
- 10 Pedersen BK, Toft AD. Effects of exercise on lymphocytes and cytokines. Br J Sports Med 2000; 34: 246-251
- 11 Pereira GB, Prestes J, Tibana RA, Shiguemoto GE, Navalta J, Perez SE. Acute resistance training affects cell surface markers for apoptosis and migration in CD4+ and CD8+ lymphocytes. Cell Immunol 2012; 279: 134-139
- 12 Prestes J, Shiguemoto G, Botero JP, Frollini A, Dias R, Leite R, Pereira G, Magosso R, Baldissera V, Cavaglieri C, Perez S. Effects of resistance training on resistin, leptin, cytokines and muscle force in elderly postmenopausal women. J Sports Sci 2009; 27: 1607-1615
- 13 Sekine C, Moriyama Y, Koyanagi A, Koyama N, Ogata H, Okumura K, Yagita H. Differential regulation of splenic CD8- dendritic cells and marginal zone B cells by Notch ligands. Int Immunol 2009; 21: 295-301
- 14 Simpson RJ, Florida-James GD, Whyte GP, Black JR, Ross JA, Guy K. Apoptosis does not contribute to the blood lymphocytopenia observed after intensive and downhill treadmill running in humans. Res Sports Med 2007; 15: 157-174
- 15 Smilios I, Pilianidis T, Karamouzis M, Tokmakidis SP. Hormonal responses after various resistance exercise protocols. Med Sci Sports Exerc 2003; 35: 644-654
- 16 Tibana RA, Prestes J, Nascimento DC, Vanni O, Santana F, Balsamo S. Higher muscle performance in adolescents compared with adults after a Resistance training session with different rest intervals. J Strength Cond Res 2012; 26: 1027-1032
- 17 Tibana RA, Navalta J, Bottaro M, Vieira D, Tajra V, Silva AD, de Farias DL, Pereira GB, de Souza JC, Balsamo S, Cavaglieri CR, Prestes J. Effects of eight weeks of resistance training on the risk factors of metabolic syndrome in overweight/obese women – “A Pilot Study”. Diabetol Metab Syndr 2013; 5: 11
- 18 Tibana RA, Pereira GB, Navalta JW, Bottaro M, Prestes J. Acute effects of resistance exercise on 24-h blood pressure in middle aged overweight and obese women. Int J Sports Med 2013; 34: 460-464