Summary
Immunoreactive prolactin (IMP) has been localized in the male rat brain using the soluble peroxidase-anti-peroxidase (PAP) technique. In normal untreated animals, reaction product was seen in choroid plexus (CP) and in ependymal cells of the ventricular lining with heaviest concentrations of positively staining cells in the 3rd ventricle near the subcommisural organ (SCO), in the lateral ventricles near the subfornical organ (SFO), and in the 4th ventricle near the area postrema (AP). IMP was also present in numerous ependymal cells resembling tanycytes in the cerebral aqueduct, central canal of the spinal cord at the level of the AP, the organum vasculosum of the lamina terminalis (OVLT) and the floor of the infundibular recess. Immunoreactive cells resembling neurons were localized within the substance of the AP, SCO, and OVLT. IMP was also present in fibers of the zona externa of the median eminence and infundibular stalk; a few cells of the pars tuberalis contained reaction product. Hypophysectomized rats and bromocriptine-treated rats exhibited a similar staining pattern except that bromocriptine treatment eliminated IMP from most CP cells. Hypophysectomy, bromocriptine or estrogen treatment enhanced staining for IMP in cells of the pars tuberalis; estrogen treatment or hypophysectomy produced an increase in the number and distribution of immunoreactive cells as well as increased density of reaction product in cells of the medial habenular nucleus. The functional relevance of prolactin in these locations in the brain, the possible routes of transport of prolactin from the pituitary gland to the central nervous system, and the strong suggestion of extra-pituitary sites of synthesis of a prolactin-like hormone are discussed.
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References
Akmayev IG, Fidelina OV (1978) Tanycytes and gonadal hormones. In: Dorner G, Kawakami M (eds) Hormones and brain development. Elsevier, North-Holland Biomedical Press, Amsterdam, pp 423–429
Assies J, Schellekens APM, Touber JL (1978a) Prolactin in human cerebrospinal fluid. J Clin Endocrinol Metab 46:576–586
Assies J, Schellekens APM, Touber JL (1978b) Protein hormones in cerebrospinal fluid: evidence for retrograde transport of prolactin from the pituitary to the brain in man. Clin Endoerinol 8:487–491
Bergland RM, Page RB (1978) Can the pituitary secrete directly to the brain? (Affirmative Anatomical Evidence). Endocrinology 102:1325–1338
Brightman MW, Prescott L, Reese TS (1975) Intercellular junctions of special ependyma. In: Knigge KM, Scott DE, Kobayashi H, Ishii S (eds) Brain-endocrine interaction. II. The ventricular system in neuroendocrine mechanisms. Karger, Basel, pp 146–165
Calas A, Bosler O, Arluison M, Bouchard C (1978) Serotonin as a neurohormone in circumventricular organs and supraependymal fibers. In: Scott DE, Kozlowski GP, Weindl A (eds) Brain-endocrine interaction III. Neural hormones and reproduction. Karger, Basel, pp 238–250
Clemens JA, Sawyer BD (1974) Identification of prolactin in cerebrospinal fluid. Exp Brain Res 21:399–402
Clemens JA, Gallo RV, Whitmoyer DI, Sawyer CH (1971) Prolactin responsive neurons in the rabbit hypothalamus. Brain Res 25:371–379
Dellmann H-D, Simpson JB (1975) Comparative ultrastructure and function of the subfornical organ. In: Knigge KM, Scott DE, Kobayashi H, Ishii S (eds) Brain-endocrine interaction II. The ventricular system in neuroendocrine mechanisms. Karger, Basel, pp 166–189
Friesen HG (1977) Prolactin. In: Greep RO, Koblinsky MA (project directors) A review of the reproductive sciences and contraceptive development. Frontiers in reproduction and fertility control. MIT Press, Cambridge Mass London England, pp 25–32
Fuxe K, Hökfelt T, Eneroth P, Gustafsson J-Å, Skett P (1977) Prolactin-like immunoreactivity: localization in nerve terminals of rat hypothalamus. Science 196:899–900
Herkenham M, Nauta WJH (1979) Efferent connections of the habenular nuclei of the rat. J Comp Neurol 187:19–48
Kawakami M, Sakuma Y (1976) Electrophysiological evidences for possible participation of periventricular neurons in anterior pituitary regulation. Brain Res 101:79–94
Kawakami M, Sakuma Y, Kimura F (1975) Possible mechanism for control of neurosecretory periventricular neurons. In: Knigge KM, Scott DE, Kobayashi H, Ishii S (eds) Brain-endocrine interaction II. The ventricular system in neuroendocrine mechanisms. Karger, Basel, pp 135–145
Kobayashi H (1975) Absorption of cerebrospinal fluid by ependymal cells of the median eminence. In: Knigge KM, Scott DE, Kobayashi H, Ishii S (eds) Brain-endocrine interaction. II. The ventricular system in neuroendocrine mechanisms. Karger, Basel, pp 109–122
Krieger DT, Liotta AS (1979) Pituitary hormones in brain: Where, how, and why? Science 205:366–372
Landas S, Thompson S, Lewis R, Stamler J, Raizada M, Phillips M (1981) Uptake of prolactin from cerebrospinal fluid in rat brain. The physiologist (abst) 24:33
Léránth CS, Schiebler TH (1974) Über die Aufnahme von Peroxidase aus dem 3. Ventrikel der Ratte. Elektronenmikroskopische Untersuchungen. Brain Res 67:1–11
Lichtensteiger W, Richards JG, Kopp HG (1978) Possible participation of non-neuronal elements of median eminence in neuroendocrine effects of dopaminergic and cholinergic systems. In: Scott DE, Kozlowski GP, Weindl A (eds) Brain-endocrine interaction III. Neuronal hormones and reproduction. Karger, Basel, pp 251–262
Login IS, MacLeod RM (1977) Prolactin in human and rat serum and cerebrospinal fluid. Brain Res 132:477–483
Nakai Y, Naito N (1975) Uptake and bidirectional transport of peroxidase injected into the blood and cerebrospinal fluid by ependymal cells of the median eminence. In: Knigge KM, Scott DE, Kobayashi H, Ishii S (eds) Brain-endocrine interaction II. The ventricular system in neuroendocrine mechanisms. Karger, Basel, pp 94–108
Pelletier G, Dupont A, Puviani R (1975) Ultrastructural study of the uptake of peroxidase by the rat median eminence. Cell Tissue Res 156:521–532
Reichlin S (1974) Neuroendocrinology. In: Williams RH (ed) Textbook of endocrinology. Saunders, Philadelphia London Toronto, pp 805–806
Rodgers CH, Law OT (1967) The effects of habenular and medial forebrain bundle lesions on sexual behavior in female rats. Psychon Sci 8:1–2
Scapagnini U, Rizza V, Drago F, Pellegrini-Quarantotti PL, Ragusa N, Clementi G, Prato A, Marchetti B, Gessa GL (1980) Prolactin effects on the brain. In: MacLeod RM, Scapagnini U (eds) Central and peripheral regulation of prolactin control. Raven Press, New York, pp 293–309
Sternberger L, Hardy P, Cuculis J, Meyer H (1970) The unlabelled antibody enzyme method of immunocytochemistry. Preparation and properties of soluble antigen-antibody complex (PAP) and its use in identification of spirochetes. J Histochem Cytochem 18:315–333
Toubeau G, Desclin J, Parmentier M, Pasteels JL (1979a) Compared liberalizations of prolactin-like and adrenocorticotropin immunoreactivities within the brain of the rat. Neuroendocrinology 29:374–384
Toubeau G, Desclin J, Parmentier M, Pasteels JL (1979b) Cellular localization of a prolactin-like antigen in the rat brain. J Endocrinol 83:261–266
Walsh RJ, Posner BI, Kopriwa BM, Brawer JR (1978) Prolactin binding sites in the rat brain. Science 201:1041–1042
Weindl A, Joynt RJ (1972) The median eminence as a circumventricular organ. In: Knigge KM, Scott DE, Weindl A (eds) Brain-endocrine interaction. Median eminence: Structure and function. Karger, Basel, pp 281–297
Weindl A, Sofroniew MV (1978) Neurohormones and circumventricular organs. In: Scott DE, Kozlowski GP, Weindl A (eds) Brain-endocrine interaction III. Neural hormones and reproduction. Karger, Basel, pp 117–137
Yamada Y (1975) Effects of iontophoretically-applied prolactin on unit activity of the rat brain. Neuroendocrinology 18:263–271
Zouhar RL, de Groot J (1963) Effects of limbic brain lesions on aspects of reproduction in female rats (abst). Anat Rec 145:358
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Thompson, S.A. Localization of immunoreactive prolactin in ependyma and circumventricular organs of rat brain. Cell Tissue Res. 225, 79–93 (1982). https://doi.org/10.1007/BF00216220
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DOI: https://doi.org/10.1007/BF00216220