Abstract
Male and female wild Norway rats (Rattus norvegicus Erxleben) and males and female albino outbred rats (Ipf:RIZ) were crossbred. The resulting animals (F1 hybrids) were the control, noninbred group (0% inbred). By systematic full-sib mating, two experimental groups (50 and 91% of inbred) were produced. Half of each group (both males and females) was exposed to physical stress (3 days of starvation and 3 hr of swimming). The other half of each group was anesthetized using ether to collect blood. The anterior pituitary hormone concentrations of prolactin (PRL), corticotropin (ACTH), and growth hormone (rGH) in blood serum were determined by the radioimmunoassay method. Significant relationships between the PRL, ACTH, and rGH concentrations in blood serum and the inbreeding coefficient were observed: A significant PRL content decrease in blood serum occurred (linear function) and the rGH and ACTH content diminished significantly rapidly (quadratic function). These changes were affected by an increase in homozygosity. Stress significantly influenced PRL, ACTH, and rGH concentrations as well. The sex of rats significantly determined PRL and ACTH content only. Hormone levels were also influenced by interactions between the factors studied (inbred level, sex, stress).
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References
Armario, A., Lopez-Calderon, T., Jolin, T., and Balash, J. (1986). Response of anterior pituitary hormones to chronic stress: The specifity of adaptation.Neurosci. Biobehav. Res. 10245.
Armario, A., Garcia-Marquez, C., and Jolin, T. (1987). The effect of chronic intermittent stress on basal and acute stress levels of TSH and GH, and their response to hypothalamic regulatory factors in the rat.Psychoneuroendocrinology 12(5):399.
Cartwright, T. C. (1974). Net effects of genetic variability on beef production systems.Genetics 78541.
Dallman, M. F., Akana, S., Cascio, C. S., Darlington, D. N., Jacobson, L., and Levin, N. (1987). Regulation of ACTH secretion: Variation on a theme of B.Rec. Prog. Horm. Res. 43113.
Donnerer, J., and Lembeck, F. (1990). Different control of the adrenocorticotropin-corticosterone response and of prolactin secretion during cold stress, anaesthesia, surgery, and nicotine injection in the rat: involvement of capsaicin-sensitive sensory neurons.Endocrinology 126(2):921.
Ercanbrack, S. K., and Price, D. A. (1977). Selecting for weight and rate of gain in inbred lambs.J. Anim. Sci. 44532.
Gala, R. R. (1990). The physiology and mechanisms of the stress-induced changes in prolactin secretion in the rat.Life Sci. 461407.
Ganong, W. F. (1980). Naurotransmitters and pituitary function: Regulation of ACTH secretion.Fed. Proc. 392923.
Jurcovicova, J., and Vigas, M. (1978). Application of charcoal separation method to radioimmunoassay of rat growth hormone.Radiochem. Radioanal. Lett. 34161.
Jurcovicoa, J., Vigas, M., Klir, P., and Jezova, D. (1984). Response of prolactin, growth hormone and corticosterone secretion to morphine administration or stress exposure in Wistar-AVN and Long Evans rats.Endocrinol. Exp. 18209.
Jurcovicova, J., Kvetnansky, R., Dobrakovova, M., Jezova, D., Kiss, A., and Makara, G. B. (1990). Prolactin response to immobilization stress and hemorrage: The effect of hypothalamic deafferentiation and posterior pituitary denervation.Endocrinology 125(5):2527.
Keller-Wood, M., and Dallman, M. F. (1984). Corticosteroid inhibition of ACTH secretion.Endocrinol. Rev. 51.
Kosowska, B., and Zdrojewicz, Z. (1988). Histological picture of adrenal gland and hypothalamus in rats of different homozygosity.Zool. Poloniae 35113.
Kosowska, B., and Zdrojewicz, Z. (1989a). Adrenal medulla hormone response to stress in rats of various inbreeding level.J. Anim. Breed. Genet. 106455.
Kosowska, B., and Zdrojewicz, Z. (1989b). Iodothyronines and insulin concentrations in rats of variable homozygosity, exposed to two types of stress.J. Anim. Breed. Genet. 106373.
Kosowska, B., and Zdrojewicz, Z. (1990a). The effect of inbred level on the function of hypothalamic-pituitary-corticoadrenal axis in rats under stress.Zesz. Nauk. AR Wrocław (Poland) 3210.
Kosowska, B., and Zdrojewicz, Z. (1990b). Changes in growth hormone concentration and body weight in rats with variable inbred.Zesz. Nauk. AR Wrocław (Poland) 3220.
Kosowska, B., and Zdrojewicz, Z. (1991a). The role of genetic variability in the hormonal adaptative mechanisms. I. The effect of various homozygosity level on the adrenal cortex hormone concentrations (corticosterone and aldosterone) in the blood serum of rats exposed to two types of stress.J. Anim. Breed. Genet. 108147.
Kosowska, B., and Zdrojewicz, Z. (1991b). II. Histometric changes in the width of glomerular and fascicular layers of adrenal cortex in rats under the influence of inbreeding and stress.J. Anim. Breed. Genet. 108154.
Kosowska, B., and Zdrojewicz, Z. (1991c). The influence of homozygosity on the content of aldosterone and Na+ and K+ ions in the blood serum of rats exposed to stress.Genet. Polonica 32(3):131.
Kosowska, B., and Zdrojewicz, Z. (1991d). Fertility, litter size and cannibalism in rats of different inbred level (Płodność, plenność oraz kanibalizm u szczurów o różnym poziomie inbredu).Kiel. Stud. Biol. 716.
Kosowska, B., and Zdrojewicz, Z. (1991e). Insulin and glucose response to stress in rats of different homozygosity degree (Reakcja insuliny i glukozy na stres u szczurów o różnym stopniu homozygotyczności).Kiel. Stud. Biol. 735.
Lopez-Calderon, A., Ariznavaretta, C., Calderon, M. D., Tresguerres, J. A. F., and Gonzalez-Quijano, M. J. (1989). Role of the adrenal cortex in chronic stress-induced inhibition of prolactin secretion in male rats.J. Endocrinol. 120269.
Moore, K. E., and Demarest, K. T. (1987). Stress, prolactin and hypothalamic dopaminergic neurons.Neuropharmacology 26801.
Peters, L. L., Hoefer, M. T., and Ben-Jonathan, N. (1981). The posterior pituitary: Regulation of anterior pituitary prolactin secretion.Science 213659.
Rivier, C., and Vale, W. (1985). Involvement of corticotropin-releasing factor and somatostatin in stress-induced inhibition of growth hormone secretion in the rats.Endocrinology 1172478.
Rivier, C., and Vale, W. (1987). Diminished responsiveness of the hypothalamic-pituitary-adrenal axis of the rat during exposure to prolonged stress: A pituitary-mediated mechanism.Endocrinology 1211320.
Shibasaki, T. (1984). Age related changes in plasma growth hormone response to growth hormone releasing factor in man.J. Clin. Endocrinol. Metab. 58202.
Snedecor, G. W., and Cochran, W. G. (1967).Statistical Methods Iowa State University Press, Ames.
Wolański, N. (1979). Arterial blood pressure: Genetic and ecological factors.Coll. Antrop. 177.
Yelvington, D. B., Weiss, G. K., and Ratner, A. (1984). Effect of corticosterone on the prolactin response to psychological and physical stress in rats.Life Sci. 351700.
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Kosowska, B. The effect of genetic variability (degree of homozygosity) on serum levels of the anterior pituitary hormones prolactin, corticotropin, and growth hormone in rats. Biochem Genet 30, 581–589 (1992). https://doi.org/10.1007/PL00020519
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DOI: https://doi.org/10.1007/PL00020519