Progestin receptors in rat brain: distribution and properties of cytoplasmic progestin-binding sites

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Progestin receptors in rat brain: distribution and properties of cytoplasmic progestin-binding sites

NJ MacLusky and BS McEwen

Putative progestin receptors have been characterized in brain and pituitary tissue from untreated and estrogen-primed ovariectomized- adrenalectomized rats. The properties of these sites appear indistinguishable from those of cytoplasmic progestin receptors from the uterus: 1) sedimentation coefficient of 7S, which is reduced by half in the presence of 0.3 M KCl; 2) specificity of binding which strongly favors synthetic and natural progestins as opposed to glucocorticoids, androgens, and estrogens; 3) a dissociation constant for binding the synthetic progestin [3H]R5020 (17 alpha, 21-dimethyl-19- norpregna-4, 9-diene-3,20-dione) of 0.3 nM; and 4) similar rates of formation and dissociation of the [3H]R5020-receptor complexes. In these respects, the estrogen-inducible and noninducible receptors of the brain also appear to be indistinguishable from each other. Estrogen induction of progestin receptors is apparent in uterus (6-fold), pituitary (8-fold), mediobasal hypothalamus (4-fold), and preoptic area (4-fold), all estrogen receptor-containing areas. The corticomedial amygdala does not show an estrogen effect on progestin receptor levels even though it contains estrogen receptor sites. The midbrain of the rat doeogen-insensitive receptors in the brain is relatively low and of the same order of magnitude as in nonstimulated hypothalamus, preoptic area, and pituitary, yet variations are seen among the estrogen- insensitive structures, with lowest levels occurring in cerebellum (6-7 fmol/mg protein) and highest levels occuring in cerebral cortex (approximately 25 fmol/mg protein). These findings are discussed in relation to the actions of progesterone which do and do not require estrogen priming and in relation to intracranial progesterone implantation studies.

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				E. M. Foecking, M. Szabo, N. B. Schwartz, and J. E. Levine Neuroendocrine Consequences of Prenatal Androgen Exposure in the Female Rat: Absence of Luteinizing Hormone Surges, Suppression of Progesterone Receptor Gene Expression, and Acceleration of the Gonadotropin-Releasing Hormone Pulse Generator Biol Reprod, June 1, 2005; 72(6): 1475 - 1483. [Abstract] [Full Text] [PDF]

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				Y. Ishida and J. N. M. Heersche Progesterone- and Dexamethasone-Dependent Osteoprogenitors in Bone Cell Populations Derived from Rat Vertebrae Are Different and Distinct Endocrinology, July 1, 1999; 140(7): 3210 - 3218. [Abstract] [Full Text]

				R. E. M. Scott, X. S. Wu-Peng, P. M. Yen, W. W. Chin, and D. W. Pfaff Interactions of Estrogen- and Thyroid Hormone Receptors on a Progesterone Receptor Estrogen Response Element (ERE) Sequence: a Comparison with the Vitellogenin A2 Consensus ERE Mol. Endocrinol., October 1, 1997; 11(11): 1581 - 1592. [Abstract] [Full Text]

				P. E. Chappell, J. P. Lydon, O. M. Conneely, B. W. O' Malley, and J. E. Levine Endocrine Defects in Mice Carrying a Null Mutation for the Progesterone Receptor Gene Endocrinology, October 1, 1997; 138(10): 4147 - 4152. [Abstract] [Full Text] [PDF]

				S. Mani, J. Allen, J. Clark, J. Blaustein, and B. O'Malley Convergent pathways for steroid hormone- and neurotransmitter-induced rat sexual behavior Science, August 26, 1994; 265(5176): 1246 - 1249. [Abstract] [PDF]

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Progestin receptors in rat brain: distribution and properties of cytoplasmic progestin-binding sites