Abstract
Profiles of plasma growth hormone (GH) in male tilapia hybrid (Oreochromis niloticus x O. aureus) were measured and compared at different times of the year. The profiles did not appear to be repetitive, however, differences in their nature were observed at the different seasons; the most erratic profiles were seen in the height of the reproductive season (July), while the peaks were more subdued in the spring and disappeared in the autumn. Peaks in male fish were more prominent than in the females when measured in July. Perifused pituitary fragments from fish with a high GSI responded to salmon gonadotropin-releasing hormone (sGnRH) analog (10 nM-1 μM), while those from fish with a low GSI barely responded to even the highest dose. Exposure of perifused pituitary fragments from sexually-regressed fish to carp growth hormone-releasing hormone (cGHRH; 0.1 μM) or sGnRH (I μM) stimulated GH release only after injection of the fish with methyl testosterone (MT; 3 injections of 0.4 mg kg 1). The same MT pretreatment did not alter the response to dopamine (DA; 1 or 10 μM). GH pituitary content in MT-treated fish was lower than in control fish, which may be explained by the higher circulating GH levels in these fish, but does not account for the increased response to the releasing hormones. Castration abolished the response of cultured pituitary cells to sGnRH (I fM-100 nM) without altering either their basal rate of secretion or circulating GH levels. Addition of steroids to the culture medium (MT or estradiol at 10 nM for 2 days) enabled a GH response to sGnRH stimulation in cells from sexually regressed fish. Pituitary cells which had not been exposed to steroids failed to respond to sGnRH, although their response to forskolin or TPA was similar to that of steroid-exposed cells. It would appear, therefore, that at least one of the effects of the sex steroids on the response to GnRH is exerted proximally to the formation of cAMP, or PKC, presumably at the level of the receptor. An increase in the number of receptors to the GH-releasing hormones, following steroid exposure, would explain also the changing nature of the GH secretory profile in different stages of the reproductive season.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References cited
Bates, D.J., Barrett, B.A. and McKeown, B.A. 1989. Daily variation in plasma growth hormone of juvenile coho salmon, Oncorhynchus kisutch. Can. J. Zool. 67: 1246–1248.
Berglund, I., Mayer, I. and Borg, B. 1992. Effects of sexual maturation, castration, and androgen implants on growth in one and two year old parr in a Baltic Atlantic salmon (Salmo salar L.) stock. J. Fish Biol. 40: 281–292.
Boujard, T. and Leatherland, J.F. 1992. Circadian pattern of hepatosomatic index, liver glycogen and lipid content, plasma non-esterifled fatty acid, glucose, T3, T4, growth hormone and cortisol concentrations in Oncorhynchus mykiss held under different photoperiod regimes and fed using demand-feeders. Fish Physiol. Biochem. 10: 111–122.
Brooks, J., Taylor, P.L., Saunders, P.T.K., Eidne, K.A., Struthers, W.J. and McNeilly, A.S. 1993. Cloning and sequencing of the sheep pituitary gonadotropin-releasing hormone receptor and changes in expression of its mRNA during the estrous cycle. Mol. Cell. Endocrinol. 94: R23–R27.
Chang, J.P., Yu, K., Wong, A.O.L. and Peter, R.E. 1990. Differential actions of dopamine receptor subtypes on gonadotropin and growth hormone release in vitro in goldfish. Neuroendocrinology 51: 664–674.
Chang, J.P., Jobin, R.M. and Wong, A.O.L. 1993. Intracellular mechanisms mediating gonadotropin and growth hormone release in the goldfish, Carassius auratus. Fish Physiol. Biochem. 11: 25–33.
Cook, H., Berkenbosch, J.W., Fernhout, M.J., Yu, K.-L., Peter, R.E., Chang, J.P. and Rivier, J.E. 1991. Demonstration of gonadotropin releasing-hormone receptors on gonadotrophs and somatotrophs of the goldfish: an electron microscope study. Reg. Peptides 36: 369–378.
Cronin, M.J. and Rogol, A.D. 1984. Sex differences in the cyclic adenosine 3′:5′-monophosphate and growth hormone response to growth hormone-releasing factor in vitro. Biol. Reprod. 31: 984–988.
Devesa, J., Lois, N., Arce, V., Diaz, M.J., Lima L. and Tresguerres, J.A.F. 1991. The role of sexual steroids in the modulation of growth hormone secretion in humans. J. Steroid Biochem. Molec. Biol. 40: 165–173.
Frohman, L., Downs, T.R. and Chomczynski, P. 1992. Regulation of growth hormone secretion. Frontiers in Neuroendocrinol. 13: 344–405.
Gregg, D.W., Allen, M.C. and Nett, T.M. 1990. Estradiol-induced increase in number of gonadotropin releasing hormone receptors in cultured ovine pituitary cells. Biol. Reprod. 43: 1032–1036.
Guerrero, R.D. 1976. Culture of male Tilapia mossambica produced through artificial sex reversal. FAO Tech. Conf. Aquacult. FIR:AQ/76/E5.
Habibi, H.R., DeLeeuw, R., Nahorniak, C.S., Goos, H.J.T. and Peter, R.E. 1989. Pituitary gonadotropin releasing hormone (GnRH) receptor activity in goldfish and catfish: seasonal and gonadal effects. Fish Physiol. Biochem. 7: 1–4.
Higgs, D.A., Fagerlund, U.H.M., McBride, J.R., Dye, H.M. and Donaldson, E.M. 1977. Influence of combinations of bovine growth hormone, 17α methyl testosterone and L-thyroxine on growth of yearling coho salmon (Oncorhynchus kisutch). Can. J. Zool. 55: 1048–1055.
Higgs, D.A., Fagerlund, U.H.M., Eales, J.G. and McBride, J.R. 1982. Application of thyroid and steroid hormones as anabolic agents in fish culture. Comp. Biochem. Physiol. 73B: 143–176.
Jansson, J.-O., Albertsson-Weikland, K., Eden, S., Thorngren, K.-G. and Isaksson, O. 1982. Circumstantial evidence for a role of the secretory pattern of growth hormone in control of body growth. Acta Endocrinol. 99: 24–30.
Jansson, J.-O., Ekberg, S., Isaksson, O.G.P. and Eden, S. 1984. Influence of gonadal steroids on age- and sex-related secretory patterns of growth hormone in the rat. Endocrinology 114: 1287–1294.
Jansson, J.-O., Eden, S. and Isaksson, O. 1985. Sexual dimorphism in the control of growth hormone secretion. Endocrine Rev. 6: 128–150.
Jansson, J.-O. and Frohman, L.A. 1987. Differential effects of neonatal and adult androgen exposure on the growth hormone secretory pattern in male rats. Endocrinology 120: 1551–1557.
Kerrigan, J.R. and Rogol, A.D. 1992. The impact of gonadal steroid hormone action on growth hormone secretion during childhood and adolescence. Endocrine Rev. 13: 281–298.
Leatherland, J.F., McKeown, B.A. and John, T.M. 1974. Circadian rhythm of plasma prolactin, growth hormone, glucose and free fatty acid in juvenile kokanee salmon, Oncorhynchus nerka. Comp. Biochem. Physiol. 47A: 821–828.
Le Bail, P.-Y., Sumpter, J.P., Carragher, J.F., Mourot, B., Niu, P.D. and Weil, C. 1991. Development and validation of a highly sensitive radioimmunoassay for chinook salmon (Oncorhynchus tshawytscha) growth hormone. Gen. Comp. Endocrinol. 83: 75–85.
Le Gac, F., Blaise, O., Fostier, A., Le Bail, P.-Y., Loir, M., Mourot, B. and Weil, C. 1993. Growth hormone (GH) and reproduction: a review. Fish Physiol. Biochem. 11: 1–6.
Levavi-Sivan, B. and Yaron, Z. 1992. Involvement of cyclic adenosine monophosphate in the stimulation of gonadotropin secretion from the pituitary of the teleost fish, tilapia. Mol. Cell. Endocrinol. 85: 175–182.
Lewis, K.M. and Sower, S.A. 1992. Effects of dietary testosterone on growth and sex ratio in juvenile Atlantic salmon (Salmo salar). Fish Physiol. Biochem. 9: 513–517.
Lone, K.P. and Matty, A.J. 1980. The effect of feeding methyltestosterone on the growth and body composition of common carp (Cyprinus carpio L.). Gen. Comp. Endocrinol. 40: 409–424.
Marchant, T.A. and Peter, R.E. 1986. Seasonal variations in body growth rates and circulating levels of growth hormone in the goldfish, Carassius auratus. J. Exp. Zool. 237: 231–239.
Marchant, T.A. and Peter, R.E. 1989. Hypothalamic peptides influencing growth hormone secretion in the goldfish (Carassius auratus). Fish Physiol. Biochem. 7: 133–139.
Melamed, P., Eliahu, N., Levavi-Sivan, B., Ofir, M., FarchiPisanty, O., Rentier-Delrue, F., Smal, J., Yaron, Z. and Naor, Z. 1995. Hypothalamic and thyroidal regulation of growth hormone in tilapia. Gen. Comp. Endocrinol. 97: 13–30.
Murthy, C.K., Wong, A.O.L., Turner, R.J. and Peter, R.E. 1993. Seasonal variations in growth hormone response to two native gonadotropin releasing hormones in goldfish. Abs. XIIth Int. Cong. Comparative Endocrinology, Toronto, Canada.
Painson, J.-C., Thorner, M.O., Kreig, R.J. and Tannenbaum, G.S. 1992. Short term adult exposure to estradiol feminizes the male pattern of spontaneous and growth hormone releasing factor-stimulated growth hormone secretion in the rat. Endocrinology 130: 511–519.
Parhar, I.S. and Iwata, M. 1993. Molecular forms of gonadotropin-releasing hormone (GnRH): origin, migration and gene expression in teleosts. In Progress in Comparative Endocrinology. pp. 111–114. Edited by M.R.P. Varavudhi and S. Lorlowhakarn. Proc. IInd Int. Symp. Asia and Oceania Society for Comparative Endocrinology. Chiangmai.
Reddy, P.K. and Leatherland, J.F. 1994. Does the time of feeding affect the diurnal rhythms of plasma hormone and glucose concentration and hepatic glycogen content of rainbow trout? Fish Physiol. Biochem. 13: 133–140.
Rentier-Delrue, F., Swennen, D., Philippart, J.C., L'Hoir, C., Lion, M., Benrubi, O. and Martial, J.A. 1989. Tilapia growth hormone: molecular cloning of cDNA and expression in Escherichia coli. DNA 8: 271–278.
Rothbard, S., Yaron, Z. and Moav, B. 1988. Field experiments on growth enhancement of tilapia (Oreochromis niloticus x O. aureus Fl hybrids) using pellets containing an androgen (17α ethynyltestosterone). In The Second Int. Symp. Tilapia in Aquaculture. p. 367–375. Edited by R.S.V. Pullin, T. Bhukaswan, K. Tonguthai and J.L. Maclean. ICLARM, Manila.
Stacey, N.E., MacKenzie, S., Marchant, T.A., Kyle, A.L. and Peter, R.E. 1984. Endocrine changes during natural spawning in the white sucker, Catostomus commersoni. Gen. Comp. Endocrinol. 56: 333–348.
Sumpter, J.P., Lincoln, R.F., Bye, V.J., Carragher, J.F. and Le Bail, P.Y. 1991. Plasma growth hormone levels during sexual maturation in diploid and triploid rainbow trout (Oncorhynchus mykiss). Gen. Comp. Endocrinol. 83: 103–110.
Tannenbaum, G.S., Painson, J.-C., Lapointe, M., Gurd, W. and McCarthy, G.F. 1990. Interplay of somatostatin and growth hormone releasing hormone in genesis of episodic growth hormone secretion. Metabolism 39 (Suppl. 2): 35–39.
Trudeau, V.L., Somoza, G.M., Nahorniak, C.S. and Peter, R.E. 1992. Interactions of estradiol with gonadotropin-releasing hormone and thyrotropin releasing hormone in the control of growth hormone secretion in the goldfish. Neuroendocrinology 56: 483–490.
Vaughan, J.M., Rivier, J., Spiess, J., Peng, C., Chang, J.P., Peter, R.E. and Vale, W. 1992. Isolation and characterization of hypothalamic growth hormone releasing factor from common carp, Cyprinus carpio. Neuroendocrinology 56: 539–549.
Wehrenberg, W.B. and Giustina, A. 1992. Mechanisms and pathways of gonadal steroid modulation of growth hormone secretion. Endocrine Rev. 13: 299–308.
Wong, A.O., Chang, J.P. and Peter, R.E. 1993a. Dopamine functions as a growth hormone releasing factor in the goldfish, Carassius auratus. Fish Physiol. Biochem. 11: 77–84.
Wong, A.O., Chang, J.P. and Peter, R.E. 1993b. Characterization of D1 receptors mediating dopamine-stimulated growth hormone release from pituitary cells of the goldfish Carassius auratus. Endocrinology 133: 577–584.
Wong, A.O., Chang, J.P. and Peter, R.E. 1993c. Interactions of somatostatin, gonadotropin-releasing hormone, and the gonads on dopamine-stimulated growth hormone release in the goldfish. Gen. Comp. Endocrinol. 92: 366–378.
Wong, A.O., Chang, J.P. and Peter, R.E. 1993d. In vitro and in vivo evidence that dopamine exerts growth hormone-releasing activity in goldfish. Am. J. Physiol. 264: E925–E932.
Wu, J.C., Sealon, S.C. and Miller, W.L. 1994. Gonadal hormones and gonadotropin-releasing hormone (GnRH) alter messenger ribonucleic acid levels for GnRH receptors in sheep. Endocrinology 134: 1846–1850.
Young, G. and Ball, J.N. 1979. Effects of ovariectomy and oestrogen treatment on the ultrastructure of the adenohypophysis in the teleost Poecilia latipinna. J. Endocrinol. 83: 30P (Abs.).
Young, G. and Ball, J.N. 1983. Ultrastructural changes in the adenohypophysis during the ovarian cycle of the viviparous teleost Poecilia latipinna. Gen. Comp. Endocrinol. 52: 86–101.
Yu, K.L., Peng, C. and Peter, R.E. 1989. Changes in brain levels of gonadotropin-releasing hormone and serum levels of gonadotropin and growth hormone in goldfish during spawning. Can. J. Zool. 69: 182–188.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Melamed, P., Eliahu, N., Ofir, M. et al. The effects of gonadal development and sex steroids on growth hormone secretion in the male tilapia hybrid (Oreochromis niloticus × O. aureus). Fish Physiol Biochem 14, 267–277 (1995). https://doi.org/10.1007/BF00004065
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00004065