PROGESTERONE MODULATION OF ESTROGEN-RECEPTORS IN MICRODISSECTED REGIONS OF THE RAT HYPOTHALAMUS

One mechanism whereby progesterone opposes the regulatory actions of e strogen in the brain may include the down-regulation of estrogen recep tors. A previous study has shown a small decrease in estrogen binding in the combined preoptic area-hypothalamic area in response to progest erone treatment. To determine if this effect is region specific, gonad ectomized/adrenalectomized (GDX/ADX) estrogen-treated female rats were administered a single injection of progesterone (5.0 mg, sc) or a sil astic capsule containing crystalline progesterone. Control animals wer e treated identically but without progesterone exposure. Animals were killed 24 or 72 h after initiating progesterone treatment and estrogen binding was measured in cytosol and cell nuclear extracts of the ante rior pituitary, mediobasal hypothalamus (MBH), and preoptic area. A si gnificant effect of progesterone injection on nuclear estrogen binding was observed in the MBH at 24 h. This effect had subsided by 72 h. No effect was observed when progesterone was administered in a continuou s fashion. To further examine the regional specificity of the progeste rone effect and to determine if males were similarly affected, nuclear -bound estrogen receptors were measured in microdissected brain region s from male and female estrogen-treated GDX/ADX rats treated with 5.0 mg progesterone or vehicle 24 h before sacrifice. A significant decrea se in estrogen binding was found in the ventromedial nucleus of the fe male but not the male. A significant effect of progesterone treatment was found in the periventricular preoptic area of the male. These stud ies confirm that progesterone acts in the brain to down-regulate estro gen binding and demonstrate that this action is not evenly displayed i n all areas of the brain containing high levels of both estrogen and p rogestin receptors. (C) 1994 Academic Press, Inc.