Hormonal adaptation and the stress of exercise training: the role of glucocorticoids

• Autorzy: Hackney A.C. , Walz E. A.
• Języki publikacji: EN

Abstrakty

EN

Słowa kluczowe

EN

hormonal adaptation; stress; exercise training; glucocorticoid; sport; athlete

• Wydawca: -
• Czasopismo: Trends in Sport Sciences
• Rocznik: 2013
• Tom: 20
• Numer: 4
• Opis fizyczny: p.165-171,fig.,ref.

Twórcy

autor

Hackney A.C.

• Applied Physiology Laboratory, Department of Exercise and Sport Science, University of North Carolina, Chapel Hill, North Carolina, USA
• Department of Nutrition, Gillings School of Global Public Health, University of North Carolina, Chapel Hill, North Carolina, USA

autor

Walz E. A.

• Applied Physiology Laboratory, Department of Exercise and Sport Science, University of North Carolina, Chapel Hill, North Carolina, USA

Bibliografia

• 1. Selye H. The physiology and pathology of exposure to stress. Montreal: Medical Publishers; 1950.
• 2. Hackney AC. Stress and the neuroendocrine system: the role of exercise as a stressor and modifier of stress. Expert Rev Endocrinol Metab. 2006; 1(6): 783-792.
• 3. Viru A. The role of adrenocortical response to physical stress on the body's work capacity. Biull Eksp Biol Med. 1976; 82(7): 774-776.
• 4. Dohm GL. Protein as a fuel for endurance exercise. Exerc Sports Sci Rev. 1986; 14: 143-173.
• 5. Viru A, Viru M. Cortisol - essential adaptation hormone in exercise. Int J Sports Med. 2004; 25: 461-464.
• 6. Duclos M, Guinot M, LeBouc Y. Cortisol and growth hormone: odd and controversial ideas. Appl Physiol Nutr Metab. 2007; 32: 895-903.
• 7. Viru A, Viru M. Biochemical monitoring of sports tra¬ining. Champaign: Human Kinetics; 2001.
• 8. Adlercreutz H, Harkonen K, Kuoppasalmi K, et al. Effects of training on plasma anabolic and catabolic steroid hor¬mones and their responses during physical exercise. Int J Sports Med. 1989; 7 (suppl): 27-28.
• 9. Kuipers H, Keizer HA. Overtraining in elite athletes: review and directions for the future. Sports Med. 1988; 6: 79-92.
• 10. IUPAC - International Union of Pure and Applied Che¬mistry; http://www.iupac.org/, accessed 2008.
• 11. Bender DA. Introduction to nutrition and metabolism. London: University College London Press; 1993.
• 12. Brooks GA, Fahey TD, Baldwin KM. Exercise physiolo¬gy: human bioenergetics and its applications. Columbus: McGraw-Hill Publishing; 2005.
• 13. Tortora GJ, Derrickson B. Principles of Anatomy and Physiology 11th Edition. Hoboken: Wiley & Son; 2006.
• 14. Ostrowski K, Rohde T, Asp S, et al. Pro- and antiinflam¬matory cytokine balance in strenuous exercise in humans. J Physiol. 1999; 15: 287-291.
• 15. Steensberg A, Fischer CP, Keller C, et al. IL-6 enhances plasma IL-1ra, IL-10, and cortisol in humans. Am J Phy- siol. 2003; 285: E433-E437.
• 16. Kjaer M. Regulation of hormonal and metabolic responses during exercise in humans. Exerc Sport Sci Rev. 1992; 20: 161-184.
• 17. McMurray RG, Hackney AC. The endocrine system and exercise. In: Garrett W, ed., Exercise & sports science. Phi-ladelphia; Williams & Wilkins Publisher; 2000; 135-162.
• 18. Viru A. Plasma hormones and physical exercise. Int J Sports Med. 1992; 13: 201-209.
• 19. Hill EE, Zack E, Battaglini C, et al. Exercise and cir¬culating cortisol levels: the intensity threshold effect. J Endocrinol Invest. 2008; 31(7): 587-591.
• 20. Viru A, Hackney AC, Valja E, et al. Influence of prolonged continuous exercise on hormone responses to subsequent exercise in humans. Eur J Appl Physiol. 2001; 85: 578¬585.
• 21. Viru M, Litvinova L, Smirnova A, et al. Glucocorticoids and metabolic control during exercise: glycogen metabo¬lism. J Sports Med Phys Fitness. 1994; 34: 377-382.
• 22. Galbo H. Hormonal and metabolic adaptation to exercise. New York: Georg Thieme Verlag; 1983.
• 23. Booth FW, Thomasson DB. Molecular and cellular ada¬ptations of muscle in responses to exercise: perspectives of various models. Physiol Rev. 1991; 71: 541-585.
• 24. Sheffield-Moore M, Urban RJ. An overview of the endo¬crinology of skeletal muscle. Trends Endocrinol Metab. 2004; 15(3): 110-115.
• 25. Sellers TL, Jaussi AW, Yang HT, et al. Effect of exercise- induced increase in glucocorticoids on endurance in the rat. J Appl Physiol. 1988; 65: 173-178.
• 26. Viru A, Eller A. Adrenal cortical regulation of protein metabolism during prolonged exertion. Biull Eksp Biol Med. 1976; 82: 1436-1439.
• 27. Gorski J, Nowacka M, Namiot Z, et al. Effect of exercise on energy substrate metabolism in tissues of adrenalec- tomized rats. Acta Physiol Pol. 1987; 38: 331-337.
• 28. Pohorecky LA, Wurtman RJ. Adrenocortical control of epinephrine synthesis. Pharmacol Rev. 1971; 23: 1-35.
• 29. Matlina E, Schreiberg G, Voinova M, et al. The interre¬lationship between catecholamines and corticosteroids in the course of muscular fatigue. Sechenov Physiol J USSR. 1978; 64: 171-176.
• 30. Viru A, Viru M, Karelson K, et al. Adrenergic effects on adrenocortical cortisol response to incremental exercise to exhaustion. Eur J Appl Physiol. 2007; 100(2): 241-245.
• 31. Malig H, Stern D, Atland P, et al. The physiological role of the sympathetic system in exercise. J Pharmacol Exper Therap. 1966; 154: 35-45.
• 32. McMurray RG, Hackney AC. Interactions of metabolic hormones, adipose tissue and exercise. Sports Med. 2005; 35(5): 393-412.
• 33. Struck PJ, Tipton SM. Effect of acute exercise on glycogen levels in adrenalectomized rats. Endocrinol. 1974; 95: 1385-1391.
• 34. Clausen T. Regulation of active Na+, K+ transport in skeletal muscle. Physiol Rev. 1986; 66: 542-580.
• 35. Korge P, Roosson S. The importance of adrenal glands in the improved adaptation of trained animals to physical exertion. Endokrinologie. 1975; 64: 232-238.
• 36. Hickson RS, Davis JR. Partial prevention of glucocorticoid-induced muscle atrophy by endurance training. Am J Physiol. 1981; 241: E226-E232.
• 37. Seene T, Viru A. The catabolic effects of glucocorticoids on different types of skeletal muscle fibers and its depen¬dency upon muscle activity and interaction with anabolic steroids. J Steroid Biochem. 1982; 16: 349-352.
• 38. Varrik E, Viru A, Oopik V, et al. Exercise-induced cata¬bolic responses in various muscle fibers. Can J Sports Sci. 1992; 17: 125-128.
• 39. Hickson RC, Kurkowski TT, Capaccio JA, et al. Andro¬gen cytosol binding in exercise-induced spring of muscle atrophy. Am J Physiol. 1984; 247: E597-E603.
• 40. Mayer M, Rosen R. Interaction of glucocorticoids and androgens with skeletal muscle. Metab. 1977; 96: 937-962.
• 41. Daly W, Hackney AC. Is exercise cortisol response of en¬durance athletes similar to levels of Cushing's Syndrome? Biol Sport. 2005; 22(3): 209-214.
• 42. Boa AM, Meynen G, Swaab DF. The stress system in depression and neurodegenerative focus on the human hypothalamus. Brain Res Rev. 2008; 57(2): 531-553.
• 43. Hackney AC, Viru A. Twenty-four cortisol response to multiple daily exercise sessions of moderate and high intensity. Clin Physiol. 1999; 19: 178-182.
• 44. Kern W, Perras B, Wodick R, et al. Hormonal secretion during nighttime sleep indicating stress of daytime exer¬cise. J Appl Physiol. 1995; 79(5): 1461-1468.
• 45. Viru A, Litvinova L, Viru M, et al. Glucocorticoid in metabolic control during exercise: alanine metabolism. J Appl Physiol. 1991; 76: 801-805.