Subscribe to RSS
DOI: 10.1055/s-2006-955898
© Georg Thieme Verlag KG Stuttgart · New York
Effect of Exercise Intensity on Exercise-Induced Lymphocyte Apoptosis
Publication History
accepted after revision September 20, 2006
Publication Date:
15 March 2007 (online)
Abstract
Because lymphocyte apoptosis is significantly elevated immediately following high-intensity exercise in humans, it seems intuitive that the cell death process must be initiated at some point during the task. This study was designed to determine whether exercise-induced lymphocyte apoptosis occurs at a threshold level of intensity, or exists only following maximal or near-maximal exercise intensities. Fourteen untrained subjects completed a discontinuous, incremental treadmill test to exhaustion (V·O2max). Blood for films was sampled before the test, immediately after each work stage, and for 1-h postexercise. Blood smears were stained with May-Grünwald Giemsa and lymphocytes were evaluated for characteristic features of apoptosis. The apoptotic index (AI) during exercise at 38 % V·O2max was similar to pre-exercise but significantly elevated at an intensity approximating 61 % V·O2max (p < 0.0001). Significant increases in apoptosis were noted with additional elevations in exercise intensity (i.e., 76 %, 89 %, and 100 %, p < 0.0001). Following 20 min of recovery, AI was significantly lower than values obtained immediately postexercise (p < 0.0001). Forty minutes of recovery resulted in a further significant decrease (p < 0.0001), and by 1-h postexercise, AI was similar to pre-exercise values. Results indicate that the exercise intensity threshold for inducing an increase in lymphocyte apoptosis occurs between 40 and 60 % V·O2max. In addition, since values return to baseline within 1 h following exhaustive exercise, it is unlikely that factors responsible for the apoptotic response in lymphocytes maintain a prolonged presence once exercise has been terminated.
Key words
programmed cell death - apoptotic index - exhaustive activity - response threshold
References
- 1 Bedner E, Li X, Gorczyca W, Melamed M R, Darzynkiewicz Z. Analysis of apoptosis by laser scanning cytometry. Cytometry. 1999; 35 181-195
- 2 Cioca D P, Watanabe N, Isobe M. Apoptosis of peripheral blood lymphocytes is induced by catecholamines. Jpn Heart J. 2000; 41 385-398
- 3 Fujinami R S, Oldstone M B. Molecular mimicry as a mechanism for virus-induced autoimmunity. Immunol Res. 1989; 8 3-15
- 4 Hansen J-B, Wilsgard L, Osterud B. Biphasic changes in leukocytes induced by strenuous exercise. Eur J Appl Physiol. 1991; 62 157-161
- 5 Hartmann A, Plappert U, Raddatz K, Grunert-Fuchs M, Speit G. Does physical activity induce DNA damage?. Mutagenesis. 1994; 9 269-272
- 6 Hodge G L, Fowler R, Han P. Optimal storage for preserving granulocyte viability as monitored by annexin V binding in whole blood. J Immunol Methods. 1999; 225 27-38
- 7 Hsu T-G, Hsu K-M, Kong C-W, Lu F-J, Cheng H, Tsai K. Leukocyte mitochondria alterations after aerobic exercise in trained human subjects. Med Sci Sports Exerc. 2002; 34 438-442
- 8 Josefsson E, Bergquist J, Ekman R, Tarkowski A. Catecholamines are synthesized by mouse lymphocytes and regulate function of these cells by induction of apoptosis. Immunology. 1996; 88 140-146
- 9 Kerr J FR, Wyllie A, Currie A R. Apoptosis: a basic biological phenomenon with wide-ranging implications in tissue kinetics. Br J Cancer. 1972; 26 239-257
- 10 Mars M, Govender S, Weston A, Naicker V, Chuturgoon A. High intensity exercise: a cause of lymphocyte apoptosis?. Biochem Biophys Res Commun. 1998; 249 366-370
- 11 Mooren F C, Lechtermann A, Fromme A, Thorwesten L, Völker K. Alterations in intracellular calcium signaling of lymphocytes after exhaustive exercise. Med Sci Sports Exerc. 2001; 33 242-248
- 12 Mooren F C, Bloming D, Lechtermann A, Lerch M M, Völker K. Lymphocyte apoptosis after exhaustive and moderate exercise. J Appl Physiol. 2002; 93 147-153
- 13 Mooren F C, Lechtermann A, Völker K. Exercise-induced apoptosis of lymphocytes depends on training status. Med Sci Sports Exerc. 2004; 36 1476-1484
- 14 Navalta J W, Sedlock D A, Park K-S. Blood treatment influences the yield of apoptotic lymphocytes after maximal exercise. Med Sci Sports Exerc. 2005; 37 369-373
- 15 Nieman D C, Miller A R, Henson D A, Warren B J, Gusewitch G, Johnson R L, Davis J M, Butterworth D E, Herring J L, Nehlsen-Cannarella S L. Effect of high- versus moderate-intensity exercise on lymphocyte subpopulation and proliferative response. Int J Sports Med. 1994; 15 199-206
- 16 Niess A M, Hartmann A, Grunert-Fuchs M, Poch B, Speit G. DNA damage after exhaustive treadmill running in trained and untrained men. Int J Sports Med. 1996; 17 397-403
- 17 Offen D, Ziv I, Gorodin S, Barzilai A, Malik Z, Melamed E. Dopamine-induced programmed cell death in mouse thymocytes. Biochim Biophys Acta. 1995; 1268 171-177
- 18 Oshida Y, Yamanouchi K, Hayamizu S, Sato Y. Effect of acute physical exercise on lymphocyte subpopulations in trained and untrained subjects. Int J Sports Med. 1988; 9 137-140
- 19 Steensberg A, Morrow J, Toft A D, Bruunsgaard H, Pedersen B K. Prolonged exercise, lymphocyte apoptosis and F2-isoprostanes. Eur J Appl Physiol. 2002; 87 38-42
- 20 Stephens L A, Gray D, Anderton S M. CD4+CD25+ regulatory T cells limit the risk of autoimmune disease arising from T cell receptor crossreactivity. Proc Natl Acad Sci USA. 2005; 102 17418-17423
- 21 Thompson C B. Apoptosis in the pathogenesis and treatment of disease. Science. 1995; 267 1456-1462
- 22 Umegaki K, Higuchi M, Inoue K, Esashi T. Influence of one bout of intensive running on lymphocyte micronucleus frequencies in endurance-trained and untrained men. Int J Sports Med. 1998; 19 581-585
J. W. Navalta
Western Kentucky University
Department of Physical Education and Recreation
1906 College Heights Blvd. #11089
Bowling Green
Kentucky 42101 - 1089
USA
Phone: + 27 07 45 60 37
Fax: + 27 07 45 60 43
Email: james.navalta@wku.edu