Sex hormone receptors in the hypothalamus and their role in the sexual differentiation of the brain of male rats

The content of receptors to estradiol and testosterone was determined in cytoplasmic and nuclear fractions of hypothalamus and brain cortex of male rats in the early postnatal period. Receptors to both estradiol and testosterone were revealed in cytosol and nuclear fractions, with the decrease in their concentration observed from days 1 to 5. The data obtained demonstrate that receptors to sexual hormones take part in the brain differentiation and regulation of hypophysis gonadotropic function by male or female type.     

Hypothalamic receptors of sex hormones in the mechanism of the sexual differentiation of the brain in rats

Studies have been made on the content of receptors of estradiol (E2) and testosterone (T) in cytoplasmic and nuclear fractions of the hypothalamus of male and female rats during neonatal development, as well as in adult females after androgenization in neonatal period and adult males castrated within 3 days of postnatal life. It was shown that both E2 and T are present in the blood serum of male and female newborn rats. In female hypothalamus, only E2 receptors were found, whereas in males both types of receptors were revealed, their content being higher than in females. In adult animals subjected to changes in the level of sex hormones in the blood during early neonatal period, changes in concentration of the receptors in the hypothalamic centres of regulation of tonic and cyclic secretion of gonadotropins were found. The data obtained presumably reveal the role of receptors of sex hormones in sex differentiation of the brain.     

Effect of estradiol on expression and activation of Akt protein in rat hypothalamus exposed to chronic [D-Met2, Pro5]-enkephalinamide treatment

Adult ovariectomized rats were implanted with [D-Met2, Pro5]-enkephalinamide (ENK)-containing osmotic minipumps. Two hours prior to sacrifice, some animals were treated with estradiol-17beta (E2) at a dose 10 microg/100 g bodyweight (BW). Expression and activation of Akt proteins, nuclear [3H]estradiol binding, and the expression of estrogen receptor alpha (ERalpha) and beta (ERbeta) and of progesterone receptor (PR) were investigated. Estradiol increased the level of activated Akt protein (pAkt473) in the hypothalamus by 52 +/- 11% in comparison to the vehicle-treated controls. No such effect of E2 was observed 24 and 48 h after ENK implantation. This effect of ENK was abolished by concomitant treatment with naloxone. Time-dependent changes in nuclear [3H]estradiol binding and the expression of estrogen and progesterone receptors were also detected in the hypothalamus of ENK-implanted and E2-treated rats. At 24-48 h following ENK implantation, expression of ERalpha and high affinity [3H]estradiol binding decreased. At this time point, the PR level was also reduced, while the ERbeta level was augmented. In conclusion, these results suggest that the stimulatory effects of E2 on the expression and activation of Akt protein and the expression of ERalpha and PR are negatively regulated in rat hypothalamus exposed to chronic ENK treatment.     

Effect of alcohol on the content of sex steroid receptors in the hypothalamus and hypophysis of male rats

In experimental dipsomania model (formation of physical dependence by method of intensive alcoholization) we have studied receptor binding of testosterone (T) and estradiol (E2) in the hypothalamus and pituitary body of mature male rats. Administration (at 10 and 16 h) of 25% ethanol-saline solution at a dose of 7.5 g/kg of body weight in the course of 5 days significantly decreased serum T level but did not change serum LH and FSH levels. Essential reduction of the nuclear androgen receptors in the preoptic-anterior hypothalamic area (POA), mediobasal hypothalamus (MBH) and adenohypophysis was noted in alcohol-treated rats. Unlike androgen receptors the number of the nuclear E2-binding sites in PaO was significantly increased in these males. Thus the results of the present paper demonstrate that multiple administration of ethanol stipulates deficit of serum T, androgen receptors in MBH and pituitary body that possibly results in separation of negative feedback mechanism between the gonads and pituitary body. Increase of specific binding of E2 to nuclear receptors in PoA might appear to explain feminization of alcohol-treated rats.     

Estrogens up-regulate type I and type II glucocorticoid receptors in brain regions from ovariectomized rats

The effects of 1-4 days of estradiol (E2) treatment on type I and type II glucocorticoid receptors (GCR) were determined in cytosolic fractions from brain regions of ovariectomized rats. Four days after E2 administration, type I GCR increased in septum, amygdala, hypothalamus and hippocampus, but decreased in the anterior pituitary. Type II GCR increased in septum and hypothalamus only. For both receptor types, changes occurred earlier in septum (1 day) than in the other regions. The E2 increment was due to an increase in Bmax, without changes in Kd. The up-regulation of type II GCR by E2 was also confirmed immunocytochemically in four nuclei of the septal area. In a parallel study, E2 receptors were determined in nuclear and cytosol fractions from the same regions analyzed for GCR. In rats receiving E2, estrogen receptors decreased in cytosol and increased in nuclei from septum, amygdala, hypothalamus and anterior pituitary, but did not change in hippocampus. The results suggest that GCR in certain neuroendocrine regions are regulated by E2, without taking into account whether the areas involved contain high (anterior pituitary), moderate (septum, hypothalamus, amygdala) or low (hippocampus) levels of E2 receptors. Our model may shed light on sex differences in GCR and on E2 regulation of glucocorticoid action in brain and the pituitary.     

Dynamics of the changes in the content of testosterone and estradiol receptors in the hypothalamus of male rats in the course of sexual development

The content of receptors to testosterone and estradiol in hypothalamus of the male rats was studied during their sexual maturation (7, 14, 21, 28, 35 and 42 days). In all the age groups of animals the concentration of receptors to testosterone in the cytoplasmic and nuclear fractions of hypothalamus was at a relatively constant level, except in 7 day old males in which the minimal concentration of cytoplasmic and the maximal concentration of nuclear receptors were noted. The highest values of estradiol-binding sites in cytosol of hypothalamus were observed on the 7th and 14th days and in the nuclear fraction on the 28th, 35th and 42nd days of life. The binding of both the hormones with their receptors is a specific process characterized by a high affinity. A suggestion is put forward that receptors both to androgens and estrogens take part in the brain sexual differentiation.     

An Exchange Assay for the Measurement of Cell Nuclear Estrogen Receptors in Microdissected Brain Regions

An exchange assay is described for the measurement of nuclear estrogen receptors (ERn) in microdissected brain regions. The distribution of ERn in the hypothalamus and amygdala of the rat 1 h after an injection of estradiol (E) is presented. Combining the exchange assay with a previously described method for measurement of cytosol estrogen receptors (ERc) in microdissected brain samples, gonadectomized male and female rats were compared for ERc and ERn. While ERc concentrations tended to be higher in females than in males in all regions of the hypothalamus, with a significant sex difference in the arcuate-median eminence, no sex difference in ERn concentrations was observed after E injection. These results suggest that ERc measurements alone are not sufficient to establish the capacity of the E receptor system: ERn measurements are also necessary to establish the relationship between receptor levels and physiologic estrogen responsiveness.     

Estrogen regulation of proteins in the rat ventromedial nucleus of the hypothalamus

The effects of estradiol (E2) on the expression of proteins in the pars lateralis of the ventromedial nucleus of the hypothalamus (VMNpl) in ovariectomized rats was studied using 2-dimensional gel electrophoresis followed by RPLC-nanoESI-MS/MS. E2 treatment resulted in the up-regulation of 29 identified proteins. Many of these proteins are implicated in the promotion of neuronal plasticity and signaling.     

Neonatal castration of male and female rats affects hypothalamic and pituitary estrogen nuclear and progestin cytosol receptors

We compared the effects of neonatal or adult castration (7 days) and 2 or 7 days of estrogen treatment on the concentrations of estradiol cystolic (ERc) and nuclear (ERn), and progestin cytosolic receptors (PRc) in the hypothalamus, amygdala and pituitaries of adult rats. Two days of estradiol (E2) treatment greatly increased ERn levels, but no further concentration changes occurred by Day 7 in any of the tissues. Long- and short-term castrated males and females had comparable ERn concentrations on Day 2 versus Day 7. Tissue ERn levels were significantly lower in short-term males compared to short-term females or neonatally castrated males and females. In a second study, ERn levels were compared in E2-treated short-term castrated males and females on Day 2. A sex difference was observed, with females having greater ERn levels in most areas. Estrogen significantly increased PRc levels in pituitary (PIT) and hypothalamus, and these levels were comparable in Day 2 and Day 7 animals. Thus, the ability of estrogen to induce PRc synthesis is somewhat refractory in long-term castrated rats.     

Changes in estrogen receptors in the mediobasal hypothalamus mediate the facilitory effects exerted by the male's olfactory cues and progesterone on feminine behavior in the male rat

The purpose of this study was to determine whether facilitory effects exerted by olfactory cues on lordosis behavior in the male rat involved changes in estradiol receptors at the hypothalamic level. Male rats were orchidectomized as adults. They were given either 25 micrograms estradiol benzoate (EB) alone or 25 micrograms EB and 100 micrograms progesterone (P) sequentially and exposed or not to the odor of male urine. Some of them were tested for lordosis behavior at 8 h after P. The other ones were killed 4 h after P and used for estradiol (E2) and P receptor assay in mediobasal hypothalamus (MBH). Olfactory cues were shown to increase the number of E2 receptors in both the animals given EB or EB + P. Progesterone as such appeared to be capable of increasing the number and the rate of occupancy of E2 receptors. A population of constitutive and estrogen-inducible P receptors was detected in the MBH. Since only the animals given EB + P were shown to be sensible to the facilitory effects of male urine on lordosis behavior, it may be assumed that E2 and P on one hand and olfactory cues on the other exert cumulative effects at the level of the MBH and that both a high level and a high rate of occupancy of E2 receptors are necessary for the olfactory cues to facilitate the display of lordosis behavior in the male rat.     

Qualification of estrogen binding variables in tissues of the immature rat.

Serum albumin, alphafetoprotein, and specific receptor binding of estradiol have been shown for the uterus, pituitary, hypothalamus, and brain cortex of the immature rat. Serum proteins were measured by immunologic methods and, following sucrose density gradient fractionation, could be definitively separated from the specific tissue estrogen receptors. The mass of alphafetoprotein in soluble tissue extracts paralleled the amounts of specific antigen detected in the serum. The choice of analytic method for designating a population of specific tissue estrogen receptor, which is free of nonreceptor steroid binding variables must therefore consider the extent of contamination by serum proteins. Excess radioinert steroid is contraindicated in receptor assays where low levels of specific receptor obtain.     

Integration of the effects of estradiol and progesterone in the modulation of gonadotropin secretion

Estradiol secreted by the maturing follicle is the primary trigger for the surge of gonadotropins leading to ovulation. Progesterone has stimulatory or inhibitory actions on this estrogen-induced gonadotropin surge depending upon the time and dose of administration. The administration of progesterone to immature ovariectomized rats primed with a low dose of estradiol induced a well-defined LH surge and prolonged FSH release, a pattern similar to the proestrus surge of gonadotropins. A physiological role of progesterone is indicated in the normal ovulatory process because a single injection of the progesterone antagonist RU 486 on the day of proestrus in the adult cycling rat and on the day of the gonadotropin surge in the pregnant mare's serum gonadotropin stimulated immature rat resulted in an attenuated gonadotropin surge and reduced the number of ova per ovulating rat. Progesterone administration brought about a rapid LHRH release and an decrease in nuclear accumulation of estrogen receptors in the anterior pituitary but not the hypothalamus. The progesterone effect was demonstrated in vitro in the uterus and anterior pituitary and appears to be confined to occupied estradiol nuclear receptors. In in vivo experiments the progesterone effect on estradiol nuclear receptors appeared to be of approximately 2-h duration, which coincided with the time period of progesterone nuclear receptor accumulation after a single injection of progesterone. During the period of progesterone effects on nuclear estrogen receptors, the ability of estrogens to induce progesterone receptors was impaired. Based on the above results, a model is proposed for the stimulatory and inhibitory effects of progesterone on gonadotropin secretion.     

Interactions of Catecholestrogens with Cytoplasmic and Nuclear Estrogen Receptors in Rat Pituitary Gland and Hypothalamus

Abstract: The affinity of a series of catecholestrogens for 7S cytoplasmic receptor proteins from hypothalamus and pituitary gland of ovariectomised rats was assessed in vitro by a competitive charcoal binding assay at 4°C. The equilibrium dissociation constants ( K _i) of catecholestrogens 4-hydroxyestradiol, 4-hydroxyethynylestradiol, 2-hydroxyestradiol, 2-hydroxyethynylestradiol, and 4-hydroxyestrone were of the same order ( K _i 0.3–0.6 n m ) as those of estradiol and ethynylestradiol ( K _i: 0.1 n m ). Methylation of 2-hydroxyestradiol led to a substantial loss of binding affinity. Tritium-labelled receptor complexes were demonstrated in KCl extracts of purified nuclei from pituitary and hypothalamic tissue 1 h after intravenous injection of 0.1 mCi tritiated 2- or 4-hydroxyestradiol. These macromolecular complexes sedimented in the 5-6S region of 5–20% (w/v) sucrose gradients containing 0.4 m -KCl. Further evidence for the translocation of estrogen receptors by catecholestrogens into the nuclei of rat pituitary and hypothalamus was the increase in nuclear receptor concentrations, measured by exchange assay, 1 h after the intraperitoneal injection of 0.1 mg unlabelled catecholestrogen. Administration of 4-hydroxyestradiol and 4-hydroxyethynylestradiol increased nuclear receptor concentrations to the same maximal levels as those following application of the same dose of estradiol or ethynylestradiol, whereas the respective 2-hydroxylated compounds exhibited only 60–70% of the maximal translocating capacity. The in vivo translocating capacities of the various catecholestrogens tested at this dose correlated well with their binding affinities for cytosol receptors determined in vitro.     

Estrogen receptors in the rat uterus. Retention of hormone-receptor complexes.

The retention pattern and biochemical characteristics of estrogen receptors in the nuclei of uterine cells were studied as a function of time after the in vivo injection of estradiol (E2) to immature female rats. One hour after the injection of 0.1 mug of tritiated E2, approximately 0.20 pmol per uterus of receptor bound hormone is retained in uterine nuclei. This dose of E2 produces a maximal uterotrophic response. Six hours after E2 administration, uterine nuclei retain 0.04-0.08 pmol of hormone per uterus. Hormone receptor complexes extracted from uterine nuclei 1, 3, and 6 h after in vivo injection of hormone have similar structural and binding characteristics. Receptors extracted at all three times sediment at 5S in high salt gradients and have a dissociation binding constant of approximately 3 nM for E2. The wash-out curves of receptors as a function of salt concentration are identical for uterine nuclei from animals treated for 1 or 6 h with estradiol, suggesting that the nature of the nuclear binding of receptors is not altered during this time interval. Experiments utilizing the injection of unlabeled estradiol, followed by an in vitro exchange procedure with tritiated estradiol, indicated that the total nuclear estrogen receptor sites, i.e., filled and vacant, decreased similarly.     

Cellular mechanisms of estradiol-mediated masculinization of the brain

The sexual differentiation of reproductive physiology and behavior in the rodent brain is largely determined by estradiol aromatized from testicular androgens. The cellular mechanisms by which estradiol masculinizes the brain are beginning to emerge and revealing novel features of brain development that are highly region-specific. In the preoptic area, the major site controlling male sexual behavior, estradiol increases the level of the COX-2 enzyme and its product, prostaglandin E2 which promotes dendritic spine synaptogenesis. In the ventromedial nucleus of the hypothalamus, the major site controlling female reproductive behavior, estradiol promotes glutamate release from synaptic terminals, activating NMDA receptors and the MAP kinase pathway. In the arcuate nucleus, a major regulator of anterior pituitary function, estradiol increases GABA synthesis, altering the morphology of neighboring astrocytes and reducing formation of dendritic spines synapses. Glutamate, GABA and the importance of neuronal-astrocytic cross-talk are emerging as common aspects of masculinization. Advances are also being made in the mechanistic basis of female brain development, although the challenges are far greater.     

Effect of serum proteins on estrogen-mediated receptor translocation in the superfused rat uterus

In order to examine the effects of serum proteins on the biologic activity of estrogens, we superfused uteri from ovariectomized rats with Krebs-Ringer phosphate buffer (KRP), 4% human serum albumin (HSA) in KR or charcoal-stripped human plasma (HP), alone or with estradiol (E2), estrone (E1) or estriol (E3), 5 x 10(-10), 10(-9) and 10(-8) M. Following superfusion, the uteri were homogenized and the cytosol and nuclear receptors were measured by an exchange technique. Since we could detect no significant difference in the percent of receptors in the nucleus when the time of superfusion was varied from 30-120 min, all studies were done using a 30 min superfusion at a flow rate of 0.6 ml/min. In control studies using KRP alone (n = 12) 23.8 +/- 1.8 (mean +/- SEM) of the receptors were present in the nucleus at the end of the 30 min superfusion. Addition of E1, E2 or E3 5 x 10(-10) M resulted in a significant increase compared to controls in the percent of receptors in the nucleus. The percent of nuclear receptors was significantly greater for E2 and E3 (46.5 +/- 3.2% and 43.6 +/- 1.8%) compared to E1 (34.0 +/- 0.9%). Superfusions of uteri with either E2 or E3 at 10(-9) M or 10(-8) M resulted in a significantly greater percent of nuclear receptors compared to equimolar infusions of E1. When uteri were superfused with E1 at 5 x 10(-10), 10(-9) or 10(-8) M or with E3 at 5 x 10(-10) or 10(-9) M in HSA or HP the percent of nuclear receptors was not different compared to the respective infusion of equimolar concentrations of E1 or E3 in KR. However, superfusions of E2 5 x 10(-10), 10(-9) or 10(-8) M in HSA or HP resulted in a significant decrease in the percent nuclear receptors compared to the percent after equimolar superfusions of E2 in KR. Superfusions of E2 in HSA or HP resulted in the same percent of receptors in the nucleus. The percent of receptors in the nucleus increased with increasing concentrations of E2, but at each concentration the percent of receptors was the same with HA as with HP. Using the percent of nuclear receptors as an index of biological activity, E1 has less activity than either E2 or E3. Interaction with serum proteins does not modulate the activities of either E1 or E3, except at the concentration of 10(-8) M for E3.(ABSTRACT TRUNCATED AT 400 WORDS)     

LH and estradiol concentration in the blood and morphological characteristics of the hypothalamus, hypophysis and the ovaries of sheep after LH/FSH-RH and synthetic gestagen treatment

In the experiments the effect of synthetic LH/FSH-RH on the concentration of LH and estradiol 17-beta (E2) in the blood of sheep was followed during physiological anestrus, and the preovulatory LH release and the E2 level in the blood serum after the synchronization of estrus with chlormadinone acetate (CAP) were studied. Furthermore, the nuclear volumes of the neurons in the ncl. hypothalamicus anterior (NHA), ncl. paraventricularis (NPV), ncl. arcuatus (NARC) and the pars distalis ncl. mamillaris medialis (PD NMM) as well as the percentage numbers of the adenohypophyseal cells and the number of normal and atretic tertiary follicles of the same ewes are described. The results show that after synthetic LH/FSH-RH treatment the LH concentration gradually increases in the blood, intravaginally instilled CAP affects the hypothalamic neurons probably by increasing significantly the concentration of the endogenous E2 that sensitizes the receptors of the hypothalamo-hypophyseal structures to LH/FSH-RH, enhancing, thus, its effect. The changes in the nuclear volume of the neurosecretorial cells of the hypothalamus after the administration of the mentioned substances indicate an ultrashort feed back in the regulation of secretion and the LH/FSH-RH release by the NARC cells. The changes were considered from the viewpoint of influencing the estrous cycle and the productivity of ewes.     

Cytosol and nuclear estrogen receptor binding in the preoptic area and hypothalamus of female rats during pregnancy and ovariectomized, nulliparous rats after steroid priming: correlation with maternal behavior

In a previous study, high nuclear estrogen receptor concentrations in the preoptic area (POA) were found on Day 16 of pregnancy to prime females to respond to a subsequent low dose of estradiol benzoate (EB) after hysterectomy-ovariectomy by exhibiting maternal behavior in 48 hr. Receptor concentrations in the POA were found to be higher than those in the hypothalamus (HYP). The present study investigated when nuclear estrogen receptors increase during pregnancy in POA and when the difference in receptor concentrations between POA and HYP occurs. An attempt was made to reproduce these pregnancy changes with a 16-day treatment of estrogen and progesterone in ovariectomized (OVX), nulliparous rats. In Experiment 1, we measured cytosol and nuclear estrogen receptor concentrations in the POA and HYP of female rats during pregnancy. Nuclear receptor concentrations in the POA increased beginning on Day 10, increased again on Day 16, and continued at this high level for the remainder of pregnancy. Nuclear estrogen receptor concentrations in the HYP remained at a lower level throughout most of pregnancy until Day 22 when they increased significantly. In Experiment 2, we tested the maternal behavior and measured estrogen receptor concentrations in OVX, steroid-primed, nulliparous rats after hysterectomy (H) and EB treatment. While 90% of estradiol (E) + progesterone (P)-primed females displayed short-latency maternal behavior 48 hr after H and EB treatment, 46% of E + vehicle (V)-treated controls were maternal. At 0 hr (prior to H and EB treatment), there was a significantly larger nuclear receptor accumulation in the POA but significantly attenuated receptor binding in the HYP. P treatment significantly affected cytosol and nuclear estrogen receptor dynamics. Differences in nuclear estrogen receptor concentrations were shown to be based on the number of available binding sites and not to changes in receptor affinity for estradiol.     

Intracellular progesterone receptors are differentially regulated by sex steroid hormones in the hypothalamus and the cerebral cortex of the rabbit

The aim of this study was to examine the role of sex steroid hormones in the regulation of intracellular progesterone receptors (PR) in the rabbit central nervous system. We determined PR concentration in cytosol preparations from the hypothalamus, the frontal, tempo-parietal and occipital cortex, by using the specific binding of the synthetic progestin [³H]ORG 2058. PR concentration was higher in the hypothalamus of intact adult females than in that of adult males and prepubertal females, whereas no significant differences were observed in the cerebral cortex of these animals. PR concentration was similar in the three cortical regions analyzed, indicating a homogeneous distribution of PR in the cerebral cortex. The administration of estradiol to ovariectomized animals increased PR concentration in the hypothalamus but not in the cortex. The administration of progesterone to ovariectomized rabbits did not modify PR concentration in any region, however when progesterone was administered after estradiol, it induced a significant diminution in hypothalamic PR concentration without effects in the cortex. These findings suggest that in the rabbit, PR are estrogen regulated in the hypothalamus but not in the cerebral cortex. In the latter, PR are not regulated by progesterone, whereas in the former the estrogen-induced PR are down-regulated by progesterone. Interestingly, hypothalamic PR constitutively expressed in ovariectomized animals are progesterone-insensitive.     

Stimulation of 17 beta-hydroxy steroid dehydrogenase in the rat anterior pituitary gland by progesterone

Anterior pituitary gland and hypothalamic 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) activity was measured in the immature castrated estradiol primed rat to determine if differences in enzyme activity could explain the progesterone induced reduction of bound estradiol nuclear receptors of the anterior pituitary gland but not the hypothalamus. Higher levels of 17 beta-HSD activity were found in the anterior pituitary gland as compared to the hypothalamus. The enzyme activity in the anterior pituitary gland was stimulated by progesterone administered either in combination with estradiol for 4 days or as a single injection following 4 days of estradiol priming. No progesterone effects were found on hypothalamic 17 beta-HSD. Under the experimental conditions used, progesterone administration did not alter uterine 17 beta-HSD. An increase in anterior pituitary gland and uterine 17 beta-HSD was also induced by estrogen administration.