Summary
Plasma adrenocorticotrophin (ACTH) and cortisol (F) concentrations were studied in six male subjects under normoxic (N) and acute hypoxic (H) conditions (altitude 3000 m) in a hypobaric chamber. Comparisons were made at rest, at 15, 30, and 60 min of exercise (65%\(\dot V_{{\text{O}}_{{\text{2max}}} } \)), and after a 10 min recovery period. Mean (±SE) resting plasma ACTH levels were significantly higher in H (18.6±5.7 pmol · l−1) than in N (9.6±1.6 pmol · l−1) but no difference in resting plasma cortisol was observed between the two conditions. Both plasma ACTH and F concentrations were significantly increased at 60 min of exercise and during the recovery period under normoxic conditions. Hypoxia did not affect the ACTH response to exercise but reduced cortisol elevation. The changes in plasma cortisol concentration from rest to exercise were significantly correlated to ACTH under normoxic (r=0.89,p<0.001) but not under hypoxic (r=0.43, NS) conditions. Plasma lactate concentration was higher at the end of exercise in hypoxia (p<0.01), and no correlation existed between plasma lactate and ACTH levels. These observations provide further evidence that at sea level the increase in plasma cortisol levels during exercise is the result of ACTH-induced steroidogenesis. The responses observed at rest and during exercise in hypoxia suggest that adrenal sensitivity for ACTH may be altered.
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References
Baulieu EE (1978) Hormones. Aspects fondamentaux et physiopathologiques. Hermann, Paris
Bouissou P, Peronnet F, Brisson G, Helie R, Ledoux M (1986) Metabolic and endocrine responses to graded exercise under acute hypoxia. Eur J Appl Physiol 55:290–294
Bouissou P, Peronnet F, Brisson G, Helie R, Ledoux M (1987) Fluid-electrolyte shift and renin-aldosterone responses to exercise under hypoxia. Horm Metabol Res 19:331–334
Dessypris A, Wägar G, Fyhrquist F, Mäkinen T, Welin MG, Lamberg BA (1980) Marathon run: effect on blood cortisol-ACTH, iodothyronines-TSH and vasopressin. Acta Endocrinol 95:15 151–157
Farrell PA, Garthwaite TL, Gustafson AB (1983) Plasma adrenocorticotrophin and cortisol responses to submaximal and exhaustive exercise. J Appl Physiol: Respirat Environ Exercise Physiol 55:1441–1444
Ferguson GA (1981) Statistical analysis in psychology and education. Mc Graw-Hill, New York
Few JD, Cashmore GC, Turton G (1980) Adrenocortical response to one-leg and two-leg exercise on a bicycle ergometer. Eur J Appl Physiol 11:167–174
Fiorelli G, Piolanti P, Forti C, Sorio M (1972) Determination of plasma corticosteroids and urinary cortisol by a competitive protein binding method using destran coated charcoal. Clin Chim Acta 37:179–187
Galbo H (1983) Hormonal and metabolic adaptation to exercise. Thieme and Stratton Inc., New York
Gambert SR, Garthwaite TL, Pontzer CH, Cook EE, Tristani FE, Duthie EH, Martison DR, Hagen TC, Mc Carty DJ (1981) Running elevates plasma beta endorphin immunoreactivity and ACTH in untrained human subjects. Proc Soc Exp Biol Med 168:1–4
Hohorst HJ (1962) L-(+)-Lactate: determination with lactic dehydrogenase and DPN. In: Bergmeyer HU (ed) Method of enzymatic analysis. Academic Press, New York, p 266–270
Hornbein T (1962) Adrenal cortical response to chronic hypoxia. J Appl Physiol 17:246–248
Humpeler E, Skrabal F, Bartsch G (1980) Influence of exposure to moderate altitude on the plasma concentration of cortisol aldosterone renin testosterone and gonadotropins. Eur J Appl Physiol 45:167–176
Lau C (1971) Role of respiratory chemoreceptors in adrenocortical activation. Am J Physiol 221:602–606
Milledge JS, Catley DM (1982) Renin, aldosterone, and converting enzyme during exercise and acute hypoxia in humans. J Appl Physiol: Respirat Environ Exercise Physiol 52:320–323
Moncloa F, Velasco I, Betala L (1968) Plasma cortisol concentration and disappearance rate of 4–14C-cortisol in newcomers to high altitude. J Clin Endocrinol Metab 28:379–382
Raff H, Tzankoff SP, Fitzgerald RS (1981) ACTH and cortisol responses to hypoxia in dogs. J Appl Physiol: Respirat Environ Exercise Physiol 51:1257–1260
Shigeoka JW, Colice GL, Ramirez G (1985) Effect of normoxemic and hypoxemic exercise on renin and aldosterone. J Appl Physiol: Respirat Environ Exercise Physiol 59:142–148
Sundsfjord JA, Stromme SB, Aakvaag A (1975) Plasma aldosterone (PA), plasma renin activity (PRA) and cortisol (PF) during exercise. In: Howald H, Poortmans JR (eds) Metabolic adaptation to prolonged exercise. Birkhäuser Verlag, Basel, pp 308–314
Sutton JR (1977) Effect of acute hypoxia on the hormonal response to exercise. J Appl Physiol: Respirat Environ Exercise Physiol 42:587–592
Urquhart J (1965) Adrenal blood flow and the adrenocortical response to corticotropin. Am J Physiol 209:1162–1168
Yalow RS, Glick SM, Roth J, Berson SA (1964) Radioimmunoassay of plasma ACTH. J Clin Endocrinol Metab 24:1219–1225
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Bouissou, P., Fiet, J., Guezennec, C.Y. et al. Plasma adrenocorticotrophin and cortisol responses to acute hypoxia at rest and during exercise. Europ. J. Appl. Physiol. 57, 110–113 (1988). https://doi.org/10.1007/BF00691248
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DOI: https://doi.org/10.1007/BF00691248