Summary
The binding of intravenously administered prolactin to choroid plexus and brain tissue was determined radioautographically in the ring dove, a species that exhibits prolactin-induced alterations in brain function. An intense autoradiographic reaction was detected over the epithelial cells of the choroid plexus 5 min after the intravenous injection of 125I-ovine prolactin. A significant reaction was also observed over the infundibulum but no significant uptake of prolactin occurred in other brain areas. The binding of radiolabelled prolactin to infundibulum appeared to be non-specific, since excess unlabelled hormone did not reduce silver grain density. In contrast, 125I-ovine prolactin binding in choroid plexus was significantly reduced by excess unlabelled ovine prolactin or human growth hormone, but not by ovine luteinizing hormone. Specific binding to choroid plexus was also detected in vitro. The lack of significant brain uptake of prolactin in vivo is discussed in relation to recent in vitro evidence for specific binding sites for prolactin in several dove brain regions. Similarities between the binding results obtained in this avian species and those reported previously in mammals suggest that the two vertebrate groups exhibit similar patterns of prolactin interaction with neural target tissues.
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References
Blüm V, Fiedler K (1965) Hormonal control of reproductive behavior in some species of cichlid fish. Gen Comp Endocrinol 5:186–196
Buntin JD, Ruzycki E (1987) Characteristics of prolactin binding sites in the brain of the ring dove (Streptopelia risorid). Gen Comp Endocrinol 65:243–253
Buntin JD, Tesch D (1985) Effects of intracranial prolactin administration on maintenance of incubation readiness, ingestive behavior, and gonadal condition in ring doves. Horm Behav 19:188–203
Buntin JD, Keskey T, Janik DS (1984) Properties of hepatic binding sites for prolactin in ring doves (Streptopelia risoria). Gen Comp Endocrinol 55:418–428
Clemens JA, Sawyer BD (1974) Identification of prolactin in cerebrospinal fluid. Exp Brain Res 21:399–402
Dube DP, Kelly PA, Pelletier G (1980) Comparative localization of prolactin binding sites in different rat tissues by immunohistochemistry, radioautography, and radioreceptor assay. Mol Cell Endocrinol 18:109–122
Duvall D, Norris DO (1977) Prolactin and substrate stimulation of locomotor activity in adult tiger salamanders (Ambystoma trigrinum). J Exp Zool 200:103–106
Hartree EF (1972) Determination of protein: A modification of the Lowry method that gives a linear photometric response. Anal Biochem 4:422–427
Houten M, van, Posner BI, Walsh RJ (1980) Radioautographic localization of lactogen binding sites in rat median eminence using 125I-human growth hormone: Evidence for a prolactin “short-loop” feedback site. Exp Brain Res 38:455–461
Hutchison RE (1975) Effects of ovarian steroids and prolactin on sequential development of nesting behavior in female budgerigars. J Endocrinol 67:29–39
Janik DS, Buntin JD (1985) Behavioural and physiological effects of prolactin in incubating ring doves. J Endocrinol 105:201–209
Kopriwa BM, Leblond CP (1962) Improvements in the coating technique of radioautography. J Histochem Cytochem 10:269–284
Landas S, Thompson SA, Lewis R, Stamler JF, Raizada MK, Phillips MI (1982) Uptake of prolactin from cerebrospinal fluid in rat brain. Neuropeptides 3:173–179
Lehrman DS (1955) The physiological basis of parental feeding behavior in the ring dove (Streptopelia risoria). Behaviour 7:241–286
Lehrman DS, Brody PN (1964) Effect of prolactin on established incubation in the ring dove. J Comp Physiol Psychol 57:161–165
Login IS, MacLeod RM (1977) Prolactin in human and rat serum and cerebrospinal fluid. Brain Res 132:477–483
Opel H (1971) Induction of incubation behavior in the hen by brain implants of prolactin. Poult Sci 50:1613
Posner BI (1976) Growth hormone and prolactin receptors: Characteristics and regulation. In: James R (ed) Proceedings of the Vth international conference on endocrinology, vol 2. Excerpta Medica, Amsterdam, pp 178–185
Posner BI, van Houten M, Patel B, Walsh RJ (1983) Characterization of lactogen binding sites in choroid plexus. Exp Brain Res 49:300–306
Riddle O, Bates RW, Lahr EL (1935) Prolactin induces broodiness in fowl. Am J Physiol 111:352–360
Vowles DM, Harwood D (1966) The effect of exogenous hormones on aggressive and defensive behaviour in the ring dove (Strepto pelia risoria). J Endocrinol 36:35–51
Walsh RJ, Posner BI, Kopriwa BM, Brawer JR (1978) Prolactin binding sites in the rat brain. Science 201:1041–1043
Walsh RJ, Posner BJ, Patel B (1984) Binding and uptake of [125I] iodoprolactin by epithelial cells of the rat choroid plexus: An in vivo autoradiographic analysis. Endocrinology 114:1496–1505
Walsh RJ, Slaby F, Posner BI (1987) A receptor mediated mechanism for the transport of prolactin from blood to cerebrospinal fluid. Endocrinology 120:1846–1850
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Buntin, J.D., Walsh, R.J. In vivo autoradiographic analysis of prolactin binding in brain and choroid plexus of the domestic ring dove. Cell Tissue Res. 251, 105–109 (1988). https://doi.org/10.1007/BF00215453
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DOI: https://doi.org/10.1007/BF00215453