Overreaching-induced Oxidative Stress, Enhanced Hsp72 Expression, Antioxidant And Oxidative Enzymes Downregulation

Overreaching (OVR) is defined as the initial phase of overtraining syndrome and is known as a metabolic imbalance leading to short-term fatigue. Exercise increases reactive oxygen species production, which can oxidize intracellular structures impairing cell function and thus leads to OVR process. The aim of this work is to study the behavior of oxidative stress markers in subjects submitted to an OVR protocol. Thirty rats were divided in exercise and control group, and submitted to an 8-week-endurance training (ET) and a 3-week-OVR protocol. Thiobarbituric acid reactive substances (TBARs), reactive carbonylated derivatives (RCD), glutathione reductase (GR), catalase (CAT) and citrate synthase (CS) activities and stress protein HSP72 were measured in soleus (SO), extensor digital longus (EDL) and semitendinuous (ST) muscles. ET induced significant enhancement (P<0.05) in CS, GR, CAT, TBARs, RCD and HSP72 in SO, EDL and ST. OVR induced higher levels (P<0.05) of TBARs, RCD and HSP72 compared with ET only in SO, while in EDL and ST all measured parameters ranged at same levels reached during ET. We concluded that stress-induced OVR protocol is fiber type dependent, the SO muscle fiber type I being the most affected by this treatment. © 2007 Blackwell Munksgaard.

Aebi, H., Catalase (1984) Methods in Enzymology., p. 105. , In: Packer, L., ed. Orlando, FL: Academic Press

Alessio, H.M., Goldfarb, A.H., Cutler, R.G., MDA content increases in fast and slow twitch skeletal muscle with intensity of exercise in a rat (1988) Am J Physiol, 255 (24), pp. C874-C877

Bompa, T.O., (1998) Theory and Methodology of Training: The Key to Athletic Performance., , Dubuque, IA: Kendall Hunt Publishing Co

Brotto, M.A.P., Nosek, T.M., Hydrogen peroxide disrupts Ca2+ release from the sarcoplasmic reticulum of rat skeletal muscle fibres (1996) J Appl Physiol, 81 (2), pp. 731-737

Costill, D.L., Flynn, M.G., Kirwan, J.P., Houmard, J.A., Mitchell, J.B., Thomas, R., Park, S.H., Effects of repeated days of intensified training on muscle glycogen and swimming performance (1988) Med Sci Sports Exerc, 20 (3), pp. 249-254

Demirel, H.A., Powers, S.K., Naito, H., Tumer, N., The effects of exercise duration on adrenal HSP72/73 induction in rats (1999) Acta Physiol Scand, 167 (3), pp. 227-231

Dudley, G.A., Abraham, W.M., Terjung, R.L., Influence of exercise intensity and duration on biochemical adaptations in skeletal muscle (1982) J Appl Physiol, 53 (4), pp. 844-850

Essig, D.A., Nosek, T.M., Muscle fatigue and induction of stress protein genes: A dual function of reactive oxygen species? (1997) Can J Appl Physiol, 22 (5), pp. 409-428

Faure, P., Lafond, J.L., Measurement of plasma sulphydryl and carbonyl groups as a possible indicator of protein oxidation (1995) Analysis of Free Radicals in Biological Systems., pp. 237-248. , In: Favier, R.,*et al: eds. Boston: Verlag

Febbraio, M.A., Koukoulas, I., HSP72 gene expression progressively increases in human skeletal muscle during prolonged, exhaustive exercise (2000) J Appl Physiol, 89 (3), pp. 1055-1060

Foster, C., Lehmann, M., Overtraining syndrome (1997) Running Injuries., pp. 173-188. , In: Guten, G.N., ed. Philadelphia, PA: WB Saunders Company

Gollnick, P.D., Bertocci, L.A., Kelso, T.B., Witt, E.H., Hodgson, D.R., The effect of high-intensity exercise on the respiratory capacity of skeletal muscle (1990) Pflugers Arch, 415 (4), pp. 407-413

Gornall, A.G., Bardawill, G.J., Daid, M.M., Determination of serum proteins by means of the biuret reaction (1949) J Biol Chem, 177, pp. 751-757

Halson, S.L., Jeukendrup, A.E., Does overtraining exist? An analysis of overreaching and overtraining research (2004) Sports Med, 34 (14), pp. 967-981

Hargreaves, M., Muscle glycogen and metabolic regulation (2004) Proc Nutr Soc, 63 (2), pp. 217-220

Haycock, J.W., Jones, P., Harris, J.B., Mantle, D., Differential susceptibility of human skeletal muscle proteins to free radical induced oxidative damage: A histochemical, immunocytochemical and electron microscopical study in vitro (1996) Acta Neuropathol (Berlin), 92 (4), pp. 331-340

Hernando, R., Manso, R., Muscle fibre stress in response to exercise: Synthesis, accumulation and isoform transitions of 70-kDa heat-shock proteins (1997) Eur J Biochem, 243 (12), pp. 460-467

Holloszy, J.O., Coyle, E.F., Adaptations of skeletal muscle to endurance exercise and their metabolic consequences (1984) J Appl Physiol, 56 (4), pp. 831-838

Hooper, S.L., MacKinnon, L.T., Howard, A., Gordon, R.D., Bachmann, A.W., Markers for monitoring overtraining and recovery (1995) Med Sci Sports Exerc, 27 (1), pp. 106-112

Jenkins, R.R., Exercise and oxidative stress methodology: A critique (2000) Am J Clin Nutr, 72 (2), pp. 670S-674S

Ji, L.L., Exercise and oxidative stress: Role of cellular antioxidant systems (1995) Exercise and Sports Science Reviews., pp. 135-136. , In: Holloszy, J., ed. Baltimore, MD: Williams & Willkins

Ji, L.L., Antioxidants and oxidative stress in exercise (1999) Proc Soc Exp Biol Med, 222 (3), pp. 283-292

Ji, L.L., Exercise-induced modulation of antioxidant defense (2002) Ann NY Acad Sci, 959, pp. 82-92

Ji, L.L., Stratman, F., Lardy, H., Antioxidant enzyme system in rat liver and skeletal muscle: Influence of selenium deficiency acute exercise and chronic training (1988) Arch Biochem Biophys, 263, pp. 150-160

Jong-Yeon, K., Hickner, R.C., Dohm, G.L., Houmard, J.A., Long- and medium-chain fatty acid oxidation is increased in exercise-trained human skeletal muscle (2002) Metabolism, 51 (4), pp. 460-464

Kanter, M., Free radicals, exercise and antioxidant supplementation (1998) Proc Nutr Soc, 57 (1), pp. 9-13

Kregel, K.C., Heat shock proteins: Modifying factors in physiological stress responses and acquired thermotolerance (2002) J Appl Physiol, 92 (5), pp. 2177-2186

Kreider, R.B., Central fatigue hypothesis and overtraining (1998) Overtraining in Sport., pp. 309-334. , In: Kreider, R.B., Fry, A.C., O'Toole, M.L., eds. Champaign, IL: Human Kinetics

Kuipers, H., Training and overtraining: An introduction (1998) Med Sci Sports Exerc, 30 (7), pp. 1137-1139

Leeuwenburgh, C., Hollander, J., Fiebig, R., Leichtweis, M., Griffith, M., Ji, L.L., Adaptations of glutathione antioxidant system to endurance training are tissue and muscle fiber specific (1997) Am J Physiol, 272, pp. R363-R369

Lehmann, M., Foster, C., Dickhuth, H.H., Gastmann, U., Autonomic imbalance hypothesis and overtraining syndrome (1998) Med Sci Sports Exerc, 30 (7), pp. 1140-1145

Lehmann, M., Foster, C., Keul, J., Overtraining in endurance athletes: A brief review (1993) Med Sci Sports Exerc, 25 (7), pp. 854-862

Lehmann, M., Foster, C., Netzer, N., Lormes, W., Steinacker, J.M., Liu, Y., Opitz-Gress, A., Gastmann, U., Physiological responses to short and long term overtraining in endurance athletes (1998) Overtraining in Sport., pp. 7-9. , In: Kreider, R.B., Fry, A.C., O'Toole, M.L., eds. Champaign, IL: Human Kinetics

Lehmann, M.J., Lormes, W., Opitz-Gress, A., Steinacker, J.M., Netzer, N., Foster, C., Gastmann, U., Training and overtraining: An overview and experimental results in endurance sports (1997) J Sports Med Phys Fitness, 37 (1), pp. 7-17

Liu, Y., Mayr, S., Opitz-Gress, A., Zeller, C., Lormes, W., Baur, S., Lehmann, M., Steinacker, J.M., Human skeletal muscle HSP70 response to training in highly trained rowers (1999) J Appl Physiol, 86 (1), pp. 101-104

Maltin, C.A., Delday, M.I., Baillie, A.G.S., Grubb, D.A., Garlick, P.J., Fiber-type composition of nine rat muscles I. Changes during the first year of life (1989) Am J Physiol, 257, pp. E823-E827

Margaritis, I., Palazzetti, S., Rousseau, A.S., Richard, M.J., Favier, A., Antioxidant supplementation and tapering exercise improve exercise-induced antioxidant response (2003) J Am Coll Nutr, 22 (2), pp. 147-156

Margaritis, I., Tessier, F., Richard, M.J., Marconnet, P., No evidence of oxidative stress after a triathlon race in highly trained competitors (1997) Int J Sports Med, 18 (3), pp. 186-190

Nemirovskaya, T.L., Shenkman, B.S., Nekrasov, A.N., Kuznetsov, A.V., Saks, V.A., Effects of physical training on the structure and metabolism of skeletal muscles in athletes (1993) Biokhimiya, 58 (3), pp. 471-479

Netto, L.E., Kowaltowski, A.J., Castilho, R.F., Vercesi, A.E., Thiol enzymes protecting mitochondria against oxidative damage (2002) Methods Enzymol, 348, pp. 260-270

Newsholme, E.A., Parry-Billings, M., McAndrew, N., Budgett, R.A., Biochemical mechanism to explain some characteristics of overtraining (1991) Advances in Nutrition and Sports., pp. 79-83. , In: Brouns, F., ed. Basel: Karger

Noakes, T.D., Physiological models to understand exercise fatigue and the adaptations that predict or enhance athletic performance (2000) Scand J Med Sci Sports, 10 (3), pp. 123-145

Ogonovszky, H., Sasvari, M., Dosek, A., Berkes, I., Kaneko, T., Tahara, S., Nakamoto, H., Radak, Z., The effects of moderate, strenuous and overtraining on oxidative stress markers and DNA repair in rat liver (2005) Can J Appl Physiol, 30 (2), pp. 186-195

Palazzetti, S., Richard, M.J., Favier, A., Margaritis, I., Overloaded training increases exercise-induced oxidative stress and damage (2003) Can J Appl Physiol, 28 (4), pp. 588-604

Petibois, C., Cazorla, G., Poortmans, J.R., Deleris, G., Biochemical aspects of overtraining in endurance sports: The metabolism alteration process syndrome (2003) Sports Med, 33 (2), pp. 83-94

Pigeolet, E., Corbisier, P., Houbion, A., Lambert, D., Michiels, C., Raes, M., Zachary, M.D., Remacle, J., Glutathione peroxidase, superoxide dismutase, and catalase inactivation by peroxides and oxygen derived free radicals (1990) Mech Age Dev, 51 (3), pp. 283-297

Powers, S.K., Criswell, D., Lawler, J., Ji, L.L., Martin, D., Herb, R.A., Dudley, G., Influence of exercise and fiber type on antioxidant enzyme activity in rat skeletal muscle (1994) Am J Physiol, 266 (22), pp. R375-380

Powers, S.K., Ji, L.L., Leeuwenburgh, C., Exercise training-induced alterations in skeletal muscle antioxidant capacity: A brief review (1999) Med Sci Sports Exerc, 31 (7), pp. 987-997

Radák, Z., Kaneko, T., Tahara, S., Nakamoto, H., Ohno, H., Goto, S., The effect of exercise training on oxidative damage of lipids, proteins and DNA in rat skeletal muscle: Evidence for beneficial outcomes (1999) Free Rad Biol Med, 27, pp. 69-74

Radák, Z., Sasvari, M., Nyakas, C., Taylor, A.W., Ohno, H., Nakamoto, H., Goto, S., Regular training modulates the accumulation of reactive carbonyl derivatives in mitochondrial and cytosolic fractions of rat skeletal muscle (2000) Arch Biochem Biophys, 383 (1), pp. 114-118

Roedde, S., MacDougall, J.D., Sutton, J.R., Green, H.J., Supercompensation of muscle glycogen in trained and untrained subjects (1986) Can J Appl Sport Sci, 11 (1), pp. 42-46

Roy, R.R., Baldwin, K.M., Edgerton, V.R., The plasticity of skeletal muscle: Effects of neuromuscular activity (1991) Exerc Sport Sci Rev, 19, pp. 269-312

Salo, D.C., Donovan, C.M., Davies, K.J., HSP70 and other possible heat shock or oxidative stress proteins are induced in skeletal muscle, heart, and liver during exercise (1991) Free Radic Biol Med, 11 (3), pp. 239-246

Smith, I.K., Vierheller, T.L., Thorne, C.A., Assay of glutathione reductase in crude tissue homogenates using 5,5′-dithiobis(2-nitrobenzoic acid) (1988) Anal Biochem, 175, pp. 408-413

Smith, L.L., Cytokine hypothesis of overtraining: A physiological adaptation to excessive stress? (2000) Med Sci Sports Exerc, 32 (2), pp. 317-331

Smolka, M.B., Zoppi, C.C., Alves, A.A., Silveira, L.R., Marangoni, S., Pereira-Da-Silva, L., Novello, J.C., MacEdo, D.V., HSP72 as a complementary protection against oxidative stress induced by exercise in the soleus muscle of rats (2000) Am J Physiol, 279 (5), pp. R1539-R1545

Snyder, A.C., Overtraining and glycogen depletion hypothesis (1998) Med Sci Sports Exerc, 30 (7), pp. 1146-1150

Srere, P.A., Citrate synthase (1969) Methods Enzymol, 13, pp. 3-11

Tauler, P., Gimeno, I., Aguiló, A., Guix, M.P., Pons, A., Regulation of erytrocyte antioxidant enzyme activities in athletes during competition and short-term recovery (1999) Pflügers Arch, 438, pp. 782-787

Tiidus, P.M., Radical species in inflammation and overtraining (1998) Can J Physiol Pharmacol, 76 (5), pp. 533-538

Venditti, P., Masullo, P., Di Meo, S., Effect of exercise duration on characteristics of mitochondrial population from rat liver (1999) Arch Biochem Biophys 1, 368 (1), pp. 112-120

Viru, M., Differences in effects of various training regimens on metabolism of skeletal muscles (1994) J Sports Med Phys Fitness, 34, pp. 217-227

Vollaard, N.B., Cooper, C.E., Shearman, J.P., Exercise-induced oxidative stress in overload training and tapering (2006) Med Sci Sports Exerc, 38 (7), pp. 1335-1341

Vollaard, N.B., Shearman, J.P., Cooper, C.E., Exercise-induced oxidative stress: Myths, realities and physiological relevance (2005) Sports Med, 35 (12), pp. 1045-1062

Welch, W.J., Mammalian stress response: Cell physiology, structure/function of stress proteins, and implications for medicine and disease (1992) Physiol Rev, 72 (4), pp. 1063-1081

Yagi, K., Lipid peroxides and human diseases (1987) Chem Phys Lipids, 45, pp. 337-351

Zhang, Y., Marcillat, O., Giulivi, C., Ernester, L., Davies, K.J.A., The inactivation of mitochondrial electron transport chain components and ATPase (1990) J Biol Chem, 265, pp. 16330-16336

Zoppi, C.C., Antunes-Neto, J., Catanho, F.O., Goulart, L.F., Motta Moura, E.N., MacEdo, D.V., Blood oxidative stress, antioxidant enzymes and muscle damage biomarkers changes during a competitive season in soccer players (2003) Rev Paul Educ Fís (Portuguese), 17 (2), pp. 119-130

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