Summary
-
1.
Serum prolactin levels are low during the first 20 days of life and gradually increase toward puberty, in both male and female rats.
-
2.
There is an age-related increase in the cell population engaged in prolactin secretion, as well as an increase in the synthesis of prolactin and of the amount of prolactin secreted from individual lactotropes.
-
3.
The gradual increase in prolactin levels in the third week of life is not related to a decrease in dopaminergic inhibition but to an increase in the efficiency of prolactin releasing factors such as estrogen, serotonin, opiates, and posterior pituitary extracts.
-
4.
Prolactin release induced by physiological factors, such as stress, cervical stimulation, or the expression of spontaneous diurnal and nocturnal surges, requires maturational events within the hypothalamic-pituitary axis which are evident at the end of the third week of life.
-
5.
In the female rat the steadily increasing levels of prolactin are involved in the timing of puberty eclosion acting at the ovary and at the brain.
-
6.
In the prepubertal male rat increasing titers of prolactin may be involved in testicular and accessory organ development and may facilitate the actions of luteinizing hormone, follicle stimulating hormone, and testosterone on male sexual organs.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aber, H., Engler, D., Molitoh, M., Bollinger-Gruber, J., and Reichlen, S. (1985). Vasoactive intestinal peptide is a physiological mediator of prolactin release in the rat.Endocrinology 1161383–1390.
Ackland, J. F., Nikolics, K., Seeburg, P. H., and Jackson, I. M. D. (1988). Molecular forms of gonadotropin-releasing hormone associated peptide (GAP): Changes within rat hypothalamus and release from hypothalamic cellsin vitro.Neuroendocrinology 48376–386.
Advis, J. P., and Ojeda S. R. (1978). Hyperprolactinemia-induced precocious puberty in the female rat: Overian site of action.Endocrinology 103924–935.
Advis, J. P., Aguado, L. I., and Ojeda, S. R. (1983). Hyperprolactinemia enhances ovarian estrogen responsiveness to gonadotropins in prepubertal rats. Antagonistic effect of adrenalectomy.Biol. Reprod. 29181–184.
Advis, J. P., Richards, J. S., and Ojeda, S. R. (1981a). Hyperprolactinemia-induced precocious puberty. I. Studies on the mechanisms by which prolactin (PRL) enhances ovarian progesterone responsiveness to gonadotropins in prepubertal rats.Endocrinology 1081333–1342.
Advis, J. P., Wiener, S., and Ojeda, S. R. (1981b). The changes in ovarian 3α-androstanediol response to gonadotropins during puberty in the rat. Modulatory role of prolactin (PRL).Endocrinology 109223–228.
Advis, J. P., Smith White, S., and Ojeda, S. R. (1981c). Delayed puberty induced by chronic suppression of prolactin release in the female rat.Endocrinology 1091321–1330.
Advis, J. P., Andrews, W. W., and Ojeda, S. R. (1982). Studies on the central effect of prolactin in inducing precocious puberty in the female rat.Brain Res. Bull. 8449–458.
Alvarez, E. O., and Fabra, D. (1980). Prolactin release induced by histamine in maturing male and female rats. J.Neural Transmission 49187–195.
Andrews, W. W., and Ojeda, S. R. (1977). On the feedback actions of estrogen on gonadotropin and prolactin release in infantile female rats.Endocrinology 1011517–1523
Arakelián, M. C., and Libertun, C. (1977). H1 and H2 histamine receptor participation in the brain control of prolactin secretion in lactating rats.Endocrinology 100890–895.
Arey, B. J., and Freeman, M. E. (1991). Ontogeny of the endogeneous stimulatory rhythm regulating prolactin secretion in immature female rats.Endocrinology 1281481–1484.
Baes, M., Allaerto, W., and Denef, C. (1987). Evidence for functional communication between folliculo-stellate cells and hormone secreting cells in perifused anterior pituitary cell aggregates.Endocrinology 120685–691.
Banerji, A, and Prasad, C. (1982) The postnatal development of the pituitary thyrotropin-releasing hormone receptor in male and female rats.Endocrinology 110663–664.
Bartke, A. (1980). Role of prolactin in reproduction in male mammals.Fed. Proc. 392577–2581.
Beck, W., and Wuttke, W. (1977). Densensitization of the dopaminergic inhibition of pituitary luteinizing hormone release by prolactin in ovariectomized rats.J. Endocrinol. 7467–74.
Beck, W., Hancke, J. L., and Wuttke, W. (1978). Increased sensitivity of dopaminergic inhibition of luteinizing hormone release in immature and castrated female rats.Endocrinology 102837–843.
Becú, D., and Libertun C. (1982). Comparative maturation of the regulation of prolactin and thyrotropin by serotonin and thyrotropin-releasing hormone in male and female rats.Endocrinology 1101879–1884.
Becú, D., and Libertun, C. (1983). Serotonergic involvement in the cimetidine-induced prolactin release.Endocrinology 1131980–1984.
Becú-Villalobos, D., and Libertun, C. (1986). Ontongenesis of (3H) serotonin binding sites in the hypothalamus of the female rat: Relation to serotonin-induced LH release in moxestrolpretreated rats.Dev. Brain Res. 25111–116.
Becú-Villalobos, D., Lux, V. A. R., Lacau de Mengido, I. M., and Libertun, C. (1984a). Sexual differences in the serotonergic control of prolactin and luteinizing hormone secretion in the rat.Endocrinology 11584–89.
Becú-Villalobos, D., Vacas, M. I., Cardinali, D. P., and Libertun C. (1984b). A developmental study of adenohypophyseal dopaminergic receptors and of haloperidol-induced prolactin release in rats.Dev. Brain Res. 12167–171.
Becú-Villalobos, D., Lacau-Mengido, I. M., and Libertun, C. (1990). Ontogenic studies of the neural control of adenohypophyseal hormones in the rat: Gonadotropins.Cell. Mol. Neurobiol. 10473.
Ben-Jonathan, N. (1985). Dopamine: A prolactin-inhibiting hormone.Endocr. Rev. 6564–589.
Ben-Jonathan, N., and Maxson, R. E. (1978). Elevation of dopamine in fetal plasma and the amniotic fluid during gestation.Endocrinology 102649–652.
Ben-Jonathan, N., Oliver, C., Weiner, H. J., Mical, R. S., and Porter, J. C. (1977). Dopamine in hypophysial portal plasma of the rat during the estrous cycle and throughout pregnancy.Endocrinology 100452–458.
Bero, L. A., and Kuhn, C. M. (1987). Differential ontogeny of opioid, dopaminergic and serotonergic regulation of prolactin secretion.J. Pharmacol. Exp. Ther. 240825–830.
Blake, C. A. (1974). Stimulation of pituitary prolactin and TSH release in lactating and proestrous rats.Endocrinology 94503–508.
Blank, M. S., Panerai, A. E., and Friesen, H. G. (1980). Effect of naloxone on luteinizing hormone and prolactin in serum of rats.J. Endocr. 85307–315.
Brown, G. M., Seeman, P., and Lee, T. (1976). Dopamine/neuroleptic receptors in basal hypothalamus and pituitary.Endocrinology 991407–1410.
Bruni, J. F., Van Vugt, D., Marshall, S., and Meites, J. (1977). Effects of naloxone, morphine, and methionine enkephalin on serum prolactin, luteinizing hormone, follicle stimulating hormone, thyroid stimulating hormone and growth hormone.Life Sci. 21461–466.
Caligaris, L. L., and Taleinsnik, S. (1974). Involvement of neurons containing serotonin in the mechanism of prolactin release induced by estrogen.J. Endocrinol. 6225–33.
Caligaris, L., Astrada, J. J., and Taleisnik, S. (1972). Influence of age on the release of luteinizing hormone induced by oestrogen and progesterone in immature rats.J. Endocrinol. 5597–103.
Campbell, C. B. G., and Ramaley, J. A. (1974), Retinohypothalamic projections: Correlation with onset of the adrenal rhythm in infant rats.Endocrinology 941201–1204.
Chandrashekar, V., Bartke, A., and Sellers, K. (1987). Prolactin modulates the gonadotropin response to the negative feedback effect of testosterone in immature male rats.Endocrinology 120758–763.
Chen, H. T. (1987). Postnatal development of pituitary lactotropes in the rat measured by reverse hemolytic plaque assay.Endocrinology 120247–253.
Clemens, J. A., Minagushi, H., Storey, R., Voogt, J. L., and Meites, J. (1969). Induction of precocious puberty in female rats by prolactin.Neuroendocrinology 4150–156.
Clemens, J. A., Sawyer, B. D., and Cerimele, B. (1975). Further evidence that serotonin is a neurotransmitter involved in the control of prolactin secretion.Endocrinology 100692–698.
Clemens, J. A., Roush, M. E., and Fuller, R. W. (1978). Evidence that serotonin neurons stimulate secretion of prolactin releasing factor.Life Sci. 222209–2214.
D'Eramo, J. L., Somoza, G. M., Kertesz, E., and Libertun, C. (1986). Baclofen, a GABA derivative, inhibits stress-induced prolactin release in the rat.Eur. J. Pharmacol. 12081–85.
deGreef, W. J., Plotsky, P. M., and Neill, J. D. (1981). Dopamine levels in hyophysial stalk plasma and prolactin levels in peripheral plasma of the lactating rat: Effects of a stimulated suckling stimulus.Neuroendocrinology 32229–302.
de Greef, W. J., Voogt, J. L., Visser, T. J., Lamberts, S. W. J., and van der Schoot, P. (1987). Control of prolactin release induced by suckling.Endocrinology 121316–322.
De-Jong, R. A. P., and Van Der Schoot, P. (1979). Advancement of sexual maturation in male rats by pituitary transplants.Biol Reprod. 2 1263–1271.
De Léan, A., Garon, M., Kelly, P. A., and Labrie, F. (1977). Changes in pituitary thyrotropin releasing hormone (TRH) receptor level and prolactin response to TRH during the rat estrous cycle.Endocrinology 1001505–1510.
Denef, C., and Andries, M. (1983). Evidence for a paracrine interaction between gonadotrophs and lactotrophs in pituitary cell aggregates.Endocrinology 112813–822.
Dohler, K. D., and Wuttke, W. (1974). Serum LH, FSH, prolactin and progesterone from birth to puberty in female and male rats.Endocrinology 941003–1008.
Dohler, K. D., and Wuttke, W. (1976). Circadian fluctuations of serum hormone levels in prepubertal male and female rats.Acta Endocrinol. 83269–279.
Dohler, K.-D., von zur Muhlen, A., and Dohler U. (1977). Pituitary luteinizing hormone (LH), follicle stimulating hormone (FSH) and prolactin from birth to puberty in female and male rats.Acta Endocrinol. 85718–728.
Donoso, A. O. (1978). Induction of prolactin and luteinizing hormone release by histamine in male and female rats and the influence of brain transmitter antagonist.J. Endocrinol. 76 193–202.
Donoso, A. O., and Banzan, A. M. (1976). Acute effects of histamine on plasma prolactin and luteinizing hormone levels in male rats.J. Neural Transm. 3995–101.
Enjalbert, A., Ruberg., M., Arancibia, S., Fiore, L., Priam, M., and Kordon, C. (1979). Independent inhibition of prolactin secretion by dopamine andγ-aminobutyric acidin vitro.Endocrinology 105823–826.
Fenske, M., and Wuttke, W. (1977). Development of stress-induced pituitary prolactin and TSH release in male rats.Acta Endocrinol. 85729–735.
Ferland, L., Fuxe, K., Eneroth, P., Gustafsson, J. A., and Skett, P. (1977). Effects of methionine enkephalin on prolactin release and catecholamine levels and turnover in the median eminence.Eur. J. Pharmacol. 4389–90.
Ferland, L., Kledzik, G. S., Cusan, L., and Labrie, F. (1978). Evidence for a role of endorphins in stress-induced and suckling-induced release of prolactin release in the rat.Mol. Cell. Endocrinol. 12267.
Fink, G., Koch, Y., and Ben Aroya, N. (1982). Release of thyrotropin releasing hormone into hypophysial portal blood is high relative to other neuropeptides and may be related to prolactin secretion.Brain Res. 243186.
Fiszer de Plazas, S., Becú, D., Mitridate de Novara, A., and Libertun, C. (1982). GABA receptors in anterior pituitary and brain areas after median eminence lesions.Endocrinology 1111974–1978.
Gibbs, D. M. (1984). High concentrations of oxytocin in hypophysial portal plama.Endocrinology 1141216–1218.
Gibbs, D. M., and Neill, J. D. (1978). Dopamine levels in hypophysial stalk blood in the rat are sufficient to inhibit prolactin secretionin vivo.Endocrinology 1021895–1900.
Gil-Ad, I., Cocchi, D., Panerai, A. E., Loctatelli, V., Mantegazza, P., and Muller, E. E. (1976). Altered growth hormone and prolactin responsiveness to TRH in the infant rat.Neuroendocrinology 21366–378.
Grandison, L., and Guidotti, A. (1979).τ-Aminobutyric acid receptor function in rat anterior pituitary: Evidence for control of prolactin release.Endocrinology 105754–759.
Gudelsky, G. A., and Porter, J. C. (1979). Morphine and opioid peptide induced inhibition of the release of dopamine from tuberoinfundibular neurons.Life Sci. 251697–1702.
Haefeley, W. (1984). Benzodiazepine interactions with GABA receptors.Neurosci. Lett. 47201–206.
Hafiez, A. A., Bartke, A., and Lloyd, C. W. (1972). The role of prolactin in the regulation of testis function: The synergistic effects of prolactin and luteinizing hormone on the incorporation of14C acetate into testosterone and cholesterol by testes from hypophysectomized ratsin vivo.J. Endocrinol. 43223–230.
Hagen, T. C., Arnaout, M. A., Scherzer, W. J., Martinson, D. R., and Garthwaite, T. L. (1986). Antisera to vasoactive intestinal polypeptide inhibits basal prolactin release from dispersed anterior pituitary cells.Neuroendocrinology 43641–645.
Hedner, T., and Lundborg, P. (1981). Neurochemical characteristics of cerebral catecholamines neurons during the postnatal development in the rat.Med. Biol. 59212–223.
Hoeffier, J. P., Boockfor, F. R., and Frawley, S. (1985). Ontogeny of prolactin cells in neonatal rats: Initial prolactin secretors also release growth hormone.Endocrinology 117187–195.
Hohn, K.-G., and Wuttke, W. (1979). Ontogeny of catecholamine turnover rats in limbic and hypothalamic structures in relation to serum prolactin and gonadotropin levels.Brain Res. 179281–293.
Holland, J. M., and Lee, C. (1980). Effects of pituitary grafts on testosterone stimulated growth of rat prostate.Biol. Reprod. 22351–355.
Hooghe-Peters, E. L., Belayew, A., Herregodts, P., Velkeniers, B., Smets, G., Martial, J. A., and Vanhaelst, L. (1988). Discrepancy between prolactin (prl) messenger ribonucleic acid and prl content in rat fetal pituitary cells: Possible role of dopamine.Mol. Endocrinol. 21163–1168.
Hostetter, M. W., and Piacsek, B. E. (1977). The effect of prolactin deficiency during sexual maturation in the male rat.Biol. Reprod. 18574–577.
Huhtaniemi, I. T., Stewart, J. M., Channabasavaiah, K., Fraser, H. M., and Clayton, R. N. (1984). Pituitary-testicular function in immature rats after treatment with GnRH antagonist, GnRH antiserum and bromocryptine.Mol. Cell. Endocrinol. 34137–143.
Hyde, J. F., Murai, I., and Ben-Jonathan, N. (1988) Differential effects of pituitary stalk section on posterior pituitary and hypothalamic contents of prolactin-releasing factor, oxytocin, dopamine and beta-endorphin.Neuroendocrinology 48314–319.
Ieri, T., Chen, H. T., and Meites, J. (1979). Effects of morphine and naloxone on serum levels of luteinizing hormone and prolactin in prepubertal male and female rats.Neuroendocrinology 29288–292.
Jimenez, A. E., Meyer, D. C., and Murphy, P. J. (1984). Developmental patterns of tyrosine hydroxylase activity in discrete central nervous system regions and serum LH and prolactin in the prepubertal rat.Neuroendocrinology 38134–138.
Johnston, C. A., and Negro-Vilar, A. (1986). Maturation of the prolactin and proopiomelanocortinderived peptide responses to ether stress and morphine: Neurochemical analysis.Endocrinology 118797–804.
Johnston, C. A., Fagin, K. D., Alper, R. H., and Negro-Vilar, A. (1986). Prolactin release after 5-hydroxytryptophan treatment requires an intact neurointermediate pituitary lobe.Endocrinology 118805–810.
Kaji, H., Chihara, K., Abe, H., Kita, T., Kashio, Y, Okimura, Y., and Fujita, T. (1985). Effect of passive immunization with antisera to vasoactive intestinal peptide and peptide histidine isoleucine amide on 5-hydroxy-L-tryptophan induced prolactin release in rats.Endocrinology 1171914–1919.
Karanth, S., Dutt, A., and Juneja H. S. (1987). Age-related release of prolactin by the pituitary and the pituitary-hypothalamic complexin vitro: An attempt to describe the development of the hypothalamic prolactin-inhibiting and -releasing activities in male rats.J. Endocrinol. 115405–409.
Kari, I., Rapakko, S., and Airaksinen, M. M. (1980). Effects of someβ-carbolines on phenylethylamine and apomorphine stereotypies in rats.Pharmacol. Biochem. Behav. 12979–982.
Kawagoe, S., and Hiroi, M. (1989). Further evidence that prolactin controls the prepubertal sexual development in the female rat.Gynecol. Obstet. Invest. 27197–200.
Khorram O., Depalatis, L. R., and McCann, S. M. (1984). Hypothalamic control of prolactin secretion during the perinatal period in the rat.Endocrinology 1151698–1704.
Kimura, F., and Kawakami, M. (1980). Two daily surges of prolactin secretion in the immature female rat.Endocrinology 107172–175.
Kimura, F., and Kawakami, M. (1981). Two daily surges of prolactin secretion preserved after ovariectomy in immature rat.Endocrinol. Jpn. 28647–652.
Kimura, F., Tsai, C.-W., and Kawakami, M. (1983). Detailed profile of prolactin secretion in the immature female rat: Evidence for the existence of an ultradian rhythm.Endocrinol. Jpn. 30297–303.
Lacau-Mengido, I. M., Becú-Villalobos, D., and Libertun, C. (1987). Sexual differences in the dopaminergic control of luteinizing hormone secretion in the developing rat.Dev. Brain Res. 3591–95.
Lacau-Mengido, I. M., Becú-Villalobos, D., Díaz, G., and Libertun, C. (1989). Chronic activation of dopamine receptors in the female infantile rat: Effect on hypophyseal hormones and on the onset of puberty.Endocrinology 124746–753.
Lacau de Mengido, I. M., Diaz-Torga, G. S., and Libertun, C. (1989). Diazepam: Endocrine effects and hypothalamic binding sites in the developing male and female rat.Life Sci. 45567–575.
Lamberts, R., and Wuttke, W. (1981). Puberty of female rats may in part be explained by decreased hypothalamic dopamine receptor sensitivity.Brain Res. 215375–381.
Lamberts, S. W. J., and MacLeod, R. M. (1990). Regulation of prolactin secretion at the level of the lactotroph.Physiol. Rev. 70279–318.
Lamprecht, F., and Coyle, J. T. (1972). Dopa decarboxylase in the developing rat brain.Brain Res. 41503–506.
Laudon, M., Hyde, J. F., and Ben-Jonathan, N. (1989). Ontogeny of prolactin releasing and inhibiting activities in the posterior pituitary.Neuroendocrinology 50644–649.
Leong, D. A., Frawley, L. S., and Neill, J. D. (1983). Neuroendocrine control of prolactin secretion.Annu. Rev. Physiol. 45109–127.
Libertun, C., and McCann S. M. (1976a). The effect of aminooxyacetic acid and other amino acids on plasma prolactin in the rat.IRCS 4374.
Libertun, C., and McCann, S. M. (1976b). The possible role of histamine in the control of prolactin and gonadotropin release.Neuroendocrinology 20110–120.
Libertun, C., Arakelián, M. C., Larrea, G. A., and Foglia, V. G. (1979). Inhibition of prolactin secretion by GABA in female and male rats.Proc. Soc. Exp. Biol. Med. 16128–31.
Libertun, C., Larrea, G. A., Vacas, M. I., and Cardinali, D. P. (1980).3(H)Dihydroergocryptine binding in anterior pituitary and prolactin secretion: Further evidence of brain regulation of adenohypophyseal receptors.Endocrinology 1071905–1909.
Libertun, C., Becú, D., Arakelián, M. C., Somoza, G., and Lux, V. A. R. (1982). Neuroendocrine control of prolactin secretion. InPhysiopathology of Hypophysial Disturbances and Diseases of Reproduction (A. De Nicola, J. Blaquier, and R. J. Soto, Eds.), Alan R. Liss, New York, pp. 131–152.
Lumpkin, M. D., Samson, W. K., and McCann, S. M. (1983). Hypothalamic and pituitary sites of action of oxytocin to alter prolactin secretion in the rat.Endocrinology 1121711–1717.
Lux, V. A. R., Tesone, M., Larrea, G. A., and Libertun, C. (1984). High correlation between prolactinemia, 125-I-hLH binding and progesterone secretion by an experimental luteoma.Life Sci. 352345–2352.
Maric, D., Stojilovic, S., Krsmanovic, L., Simonovic, I., Kovacevic, R., and Andjus, R. K. (1987). Rapid naloxone-induced alterations of androgen variables in the growing male rat.Neuroendocrinology 46167–175.
Matsumoto, A., and Arai, Y. (1981). Effect of androgen on sexual differentiation of synaptic organization in the hypothalamic arcuate nucleus: An ontogenic study.Neuroendocrinology 33166.
Mori, M., Vigh, S., Miyata, A., Yoshishara, T., Oka, S., and Arimura, A. (1990). Oxytocin is the major prolactin releasing factor in the posterior pituitary.Endocrinology 1251009–1013.
Murai, I., and Ben-Jonathan, N, (1987). Posterior pituitary lobectomy abolishes the suckling-induced rise in prolactin (PRL): Evidence for a PRL-releasing factor in the posterior pituitary.Endocrinology 121205–211.
Nagy, G., Mulchahey, J. J., and Neill, J. D. (1988). Autocrine control of prolactin secretion by vasoactive intestinal peptide.Endocrinology 122364–366.
Nazian, S. J. (1983). Pituitary function during the sexual maturation of the male rat: Inhibition of prolactin secretion by exogeneous dopamine.Biol. Reprod. 28645–651.
Negro-Vilar, A. (1983). Maturation of stress-induced prolactin release in male rats: Involvement of the tuberohypophysial dopaminergic system.Neuroendocrinol. Lett. 8 79–82.
Negro-Vilar, A., Krulich, L., and McCann, S. M. (1973). Changes in serum prolactin and gonadotropins during sexual development of the male rat.Endocrinology 93660–664.
Neill, J. D. (1972). Sexual differences in the hypothalamic regulation of prolactin secretion.Endocrinology 901154–1159.
Neill, J. D. (1988). Prolactin secretion and its control. InThe Physiology of Reproduction (E. Knobil and J. Neill, Eds.), Raven Press, New York, pp. 1379–1390.
Nikolics, K., Mason, A. J., Szonyi, E., Ramachandran, J., and Seeburg, P. H. (1985). A prolactin-inhibiting factor within the precursor for human gonadotropin-releasing hormone.Nature 316511–517.
Ojeda, S. R., and McCann, S. M. (1974). Development of dopaminergic and estrogenic control of prolactin release in the female rat.Endocrinology 951499–1505.
Ojeda, S. R., and Ramírez, V. D. (1972). Plasma levels of LH and FSH in maturing rats: Response to hemigonadectomy.Endocrinology 90 466–472.
Ojeda, S. R., Jameson, H. E., and McCann S. M. (1976). Plasma prolactin levels in maturing intact and cryptorchid male rats: Development of stress response.Proc. Soc. Exp. Biol. Med. 151310–315.
Ojeda, S. R., Castro-Vazquez, A., and Jameson, H. E. (1977). Prolactin release in response to blockade of dopaminergic receptors and to TRH injection in developing and adult rats: Role of estrogen in determining sex differences.Endocrinology 100427–439.
Ojeda, S. R., Katz, K. H., Costa, M. E., and Advis, J. P. (1983). Effect of experimental alterations in serum levels of 5α-androstane-3α, 17β-diol on the timing of puberty in the female rat.Neuroendocrinology 3919–24.
Oliver, C., Parker, C. R., and Porter, J. C. (1977). Developmental changes in the degradation of thyrotrophin releasing hormone by the serum and brain tissues of the male rat.J. Endocrinol. 74339–340.
Pilotte, N. S., and Porter, J. C. (1981). Dopamine in hypophysial portal plasma and prolactin in systemic plasma of rats treated with 5-hydroxytryptamine.Endocrinology 1082137–2141.
Plapinger, L., and McEwen, B. S. (1975). Immunochemical comparison of estradiol-binding molecules in perinatal rat brain cytosol and serum.Steroids 26255–265.
Plotsky, P. M., and Neill, J. D. (1982). Interactions of dopamine and thyrotropin releasing hormone (TRH) in the regulation of prolactin release in lactating rats.Endocrinology 111168–173.
Puig-Durán, E., and MacKinnon, P. C. B. (1978). Ontogeny of prolactin and luteinizing hormone responses to oestrogen and progesterone in immature rats.J. Endocrinol. 76321–331.
Raum, W. J., Glass, A. R., and Swerdloff, R. S. (1980). Changes in hypothalamic catecholamine neurotransmitters and pituitary gonadotrpins in the immature female rat: Relationships to the gonadostat theory of puberty onset.Endocrinology 1061253–1258.
Raynaud, J. P. (1973). Influence of rat estradiol binding plasma protein (EBP) on uterotrophic activity.Steroids 21249–258.
Reier, P. J., Cullen, M. J., Froelich, J. A., and Rothchild, I. (1977). The ultrastructure of the developing medial preoptic nucleus in the postnatal rat.Brain Res. 122415–436.
Rommelspacher, H., Kauffmann, H., Heyck Cohnitz, C., and Coper, H. (1977). Pharmacological properties of tetrahydronorharmane (tryptoline).Arch. Pharmacol. 29883–91.
Rey, E. R., Lux-Lantos, V. A. R., and Libertun, C. (1990). Prolactin-releasing effect of tryptolines in the developing and adult male and female rat.Life Sci. 471635–1640.
Rivier, C., Vale, W., Ling, N., Brown, M., and Guillemin, R. (1977). Stimulationin vivo of the secretion of prolactin and growth hormone byβ endorphin.Endocrinology 100238–241.
Rovescalli, A. C., Brunello, N., Franzetti, C., and Racagni, G. (1986). Interaction of putative endogeneous tryptolines with the hypothalamic serotonergic system and prolactin secretion in adult male rats.Neuroendocrinology 43603–610.
Rovescalli, A. C., Brunello, N., and Racagni, G. (1987). Endocrine effects of 5-methoxytryptoline, 5-hydroxytryptoline and tryptoline, putative modulators of rat serotonergic system.J. Endocrinol. Invest. 1065–72.
Said, S. I., and Porter, J. C. (1979). Vasoactive intestinal polypeptide: Release into hypophysial portal blood.Life Sci. 24227–230.
Samson, W. K., Said, S. I., Snyder, G., and McCann, S. M. (1980).In vitro stimulation of prolactin release by vasoactive intestinal peptide.Peptides 1325–332.
Samson, W. K., Lumpkin, M. D., and McCann, S. M. (1986). Evidence for a physiological role for oxytocin in the control of prolactin secretion.Endocrinology 119554–560.
Saunders, A., Terry, L. C., Brazeau, P., and Martin, J. B. (1976). Dynamic studies of growth hormone and prolactin secretion in the female rat.Neuroendocrinology 21193–197.
Schally, A. V., Redding, T. W., Arimura, A., Dupont, A., and Linthicum, G. L. (1977). Isolation of gamma-aminobutyric acid from pig hypothalami and demonstration of its prolactin releaseinhibiting (PIF) activityin vivo andin vitro.Endocrinology 100681–691.
Shaar, C. J., and Clemens, J. A. (1974). The role of catecholamines in the release of anterior pituitary prolactinin vitro.Endocrinology 951202–1212.
Shaar, C. J., Clemens, J. A., and Dininger, N. B. (1979). Effect of vasoactive intestinal polypeptides on prolactin releasein vitro.Life Sci. 252071–2074.
Shimatsu A., Kato Y., Matsushita, N., Katakami, H., Yanaihara, N., and Imura, H. (1982). Stimulation by serotonin of vasoactive intestinal polypeptide release into rat hypophysial portal blood.Endocrinology 111338–340.
Shin, S. H., and Reifel, C. W. (1981). Adenohypophysis has an inherent property for pulsatile prolactin secretion.Neuroendocrinology 32139–146.
Slotkin, T. A., Barnes, G., Lau, C., Seidler, F. J. Trepanier, P., Weigel, S. J., and Whitmore, W. L. (1982). Development of polyamine and biogenic amine systems in brains and hearts of neonatal rats given dexamethasone: Role of biochemical alterations in cellular maturation for producing deficits in ontogeny of neurotransmitter levels, uptake, storage and turnover.J. Pharmacol. Exp. Ther. 221686–693.
Smith, M. S., and Ramaley, J. A. (1978). Development of ability to initiate and maintain prolactin surges induced by uterine cervical stimulation in immature rats.Endocrinology 10351–357.
Takahara, J., Arimura, A., and Schally, A. V. (1974). Suppression of prolactin release by a purified porcine PIF preparation and catecholamines infused into a rat hypophysial portal vessel.Endocrinology 95462–465.
Tallman, J. F., and Gallager, D. W. (1985). The gaba-ergic system: A locus of benzodiazepine action.Annu. Rev. Neurosci. 821–44.
Tomogane, H., and Yokoyama, A. (1989). Development of progesterone dependency in the appearance of the nocturnal prolactin surge in immature rats.J. Reprod. Fert. 85503–509.
Urbanski, H. F., and Ojeda, S. R. (1985). The juvenile-peripubertal transition period in the female rat: Establishment of a diurnal pattern of pulsatile luteinizing hormone secretion.Endocrinology 117644–649.
Urbanski, H. F., and Ojeda, S. R. (1986). Development and amplification of mid-afternoon surges of prolactin secretion in ovariectomized immature rats.J. Endocrinol. 110361–366.
Vincent, S. R., Hokfelt, T., and Wu, J. Y. (1982). GABA neuron systems in the hypothalamus and the pituitary gland: Immunohistochemical demonstration using antibodies against glutamate decarboxylase.Neuroendocrinology 34117–125.
Watts, A. G., and Stanley, H. F. (1984). Indoleamines in the hypothalamus and area of the midbrain raphe nuclei of male and female rats throughout postnatal development.Neuroendocrinology 38461–466.
Weiner, R. I., Findell, P. R., and Kordon, C. (1988). Role of classic and peptide neuromediators in the neuroendocrine regulation of LH and prolactin. InThe Physiology of Reproduction (E. Knobil and J. Neill, Eds.), Raven Press, New York, pp. 1235–1281.
Wuttke, W., Dohler, K. D., and Gelato, M. (1976). Estrogens and prolactin as possible regulators of puberty.J. Endocrinol. 68391–396.
Wuttke, W., Honma, K., Lamberts, R., and Hohn, K. G. (1980). The role of monoamines in female puberty.Fed. Proc. 392378–2383.
Zipf, W. B., Payne, A. H., and Kelch, R. P. (1978). Prolactin, growth hormone and luteinizing hormone in the maintenance of testicular luteinizing hormone receptors.Endocrinology 103595–600.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Becú-Villalobos, D., Lacau-Mengido, I.M., Díaz-Torga, G.S. et al. Ontogenic studies of the neural control of adenohypophyseal hormones in the rat. II. prolactin. Cell Mol Neurobiol 12, 1–19 (1992). https://doi.org/10.1007/BF00711635
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00711635