In vitro binding to and in vivo effect on the cytosol and nuclear progesterone receptors of various progestins,and their relationship to synthesis of uteroglobin in rabbit uterus

In vitro binding affinities of various progestins to cytosol and nuclear progesterone receptors of rabbit uterus were determined and correlated with the biological potency of these steroids. In addition, cytosol and nuclear progesterone receptor levels were measured after a 5-day administration of different progestins (0.5 mg/kg daily) with variable biologic activites. The receptor levels were compared with the bilological response; the induction of uteroglobin synthesis. Cytosol and nuclear progesterone receptors had identical steroid binding properties (r = 0.98). The correlation between the in vitro binding affinity (cytosol or nuclear) and the in vivo biologic activity of the steroids was good (r = 0.73). After a 5-day treatment with progestins, the nuclear receptor concentration correlated in an inverse manner (r = ?0.84) with the uterine fluid unteroglobin concentration. A similar, but slightly weaker correlation (r = ?0.81) was also found for the cytosol receptor content and uteroglobin secretion. These data indicate that not only nuclear, but also cytosol progesterone receptor levels decrease in the rabbit uterus during chronic hormone action. Decline in the nuclear progesterone receptor content seemed to occur during treatment with all progestational steroids, while onlyi progestins with high biological potency were capable of decreasing the cytosol receptor content.     

Differential responses of rabbit endocervix and uterus to medroxyprogesterone acetate

Uteri and cervices were obtained from estrous rabbits (controls) and from rabbits 24 h or 7 days after a single intramuscular injection of medroxyprogesterone acetate (MPA; 2.14 mg/kg). Estrogen and progesterone receptor concentrations were measured by Scatchard analysis, cell-free DNA synthesis was measured by (3H)-TTP incorporation, and tissue sections were examined histologically. The uterine endometrium underwent marked changes in histology, including extensive infoldings of the mucosal surface, glands were continuous into crypts and secretory epithelial cells were noted. In addition, total estrogen receptor content and DNA synthesis were decreased. In contrast, there was no significant change in the histology of the endocervical epithelial-stromal complex, and total estrogen receptor remained constant. However, DNA synthesis in the endocervix was decreased. Thus we conclude that: DNA synthesis is not linked to changes in estrogen receptor in the endocervix; and differential effects of progestogen on the estrogen receptor system occur coincident with different morphological responses within two target tissues from the same animal.     

Characterization of estrogen and progesterone receptors in monkey endometrium: methodology and effects of estradiol and/or progesterone on endometrium of castrate monkeys.

Appropriate methods for repeated surgical collection of endometrial tissue from rhesus monkeys, and characterization of cytosol and nuclear estrogen (E₂) and progesterone (P) receptors (R) are described. Tissue collection was made in the mid-luteal phase at abdominal fundal hysterotomy. Functional status of the ovaries was determined by visual inspection and RIA of E₂ and P in serum. Receptor assay procedures were devised permitting the measurement of total cytosol and nuclear receptor concentration. Sucrose density gradients of labelled cytosol were made and a 4S saturable binding component for ³H P and for ³H E₂ were found. Equilibrium dissociation constants of ³H E₂ and ³H R5020 were 2.1×10^?10M and 3.6 × 10^?9M, respectively. These binding characteristics are similar to those found in human endometrium and suggest that these surrogate primates have extensive utility in investigation of factors influencing E₂R and PR concentrations in endometrial tissue during the menstrual cycle and implantation. Simulated menstrual cycle were produced in 20 castrate monkeys by sequential treatment with estradiol and progesterone in silastic capsules. RIA of E₂ and P, and gonadotropins in peripheral serum provided assuredness of the hormonal status of each monkey under treatment. Cytosol and nuclear receptors for E₂ and P were measured in the endometrium after different intervals of the treatment. E₂ receptor (E₂R) levels were not changed during the estrogen sequence, but were lowered by progesterone therapy in both cytosol and nuclear components. Progesterone receptor (PR) synthesis in cytosol was induced by exogenous estrogen. The total concentration of PR decreased with the uptake of P by the cell; meanwhile, the ratio of cytosol to nuclear P receptors declined. These data suggest that this sequential estrogen-progesterone regimen induces the changes in E₂R and PR patterns in the endometrium of ovariectomized monkeys which occurs due to ovarian cyclicity in the normal menstrual cycle.     

Mounting behavior in pregnant and pseudopregnant female rats

Mounting behavior by female rats with regular 4-day estrous cycles was significantly reduced after the induction of pregnancy, pseudopregnancy, or treatment with progesterone. The mounting behavior shown by pseudopregnant female rats was comparable to that shown by ovariectomized females. Pseudopregnant and unmated females showed mounts with pelvic thrusting with the same frequency after treatment with estradiol benzoate (EB). EB stimulated the display of mounts with pelvic thrusting in ovariectomized females, and this behavior was not affected by concurrent progesterone treatment. It is suggested that the reduction of mounting in pregnant and pseudopregnant female rats is due to decreased ovarian estrogen secretion.     

The rat uterine oestrogen receptor in relation to intra-uterine devices and the oestrous cycle [proceedings

There are changes in the nuclear content of the estrogen receptor in the rat uterus during the estrous cycle that are associated with changes in its physiology. The changes correlate with the concentrations of circulating estradiol. It appears that uterotrophic response to estradiol is a function of the nuclear receptor. The insertion of an IUD leads to changes in the treated uterine horn which appear to be the result of an increased responsitivity to circulating estradiol. The presence of an IUD did not alter the estrous cycle, gonadotropin, or corpus luteum function. The intracellular distribution of the estrogen receptor was investigated in normal uterine horns and in the horns with devices throughout the estrous cycle. Groups of 30 Wistar rats had a silk suture fitted in the lumen of 1 uterine horn. After 14 days the progress of these estrous cycles was determined. Rats were grouped according to the stage of the cycle on the 4th day. Rats were then killed and the uteri removed. Cytosol receptors were measured. The capacity of the cytosol estrogen receptor to bind to oligo(dT)-cellulose was determined. Cytosol protein, nuclear protein, and DNA were measured. At all stages of the estrous cycle, the wet weight and cytosol receptor of the treated horns were greater than the control horns. A slight increase in the capacity of cytosol receptor to bind to oligo(dT)-cellulose was noted at proestrus. The response elicited by the IUD was not considered to be due to an estrogenic response since the changes observed were not accompanied by a corresponding increase in the content of nuclear receptor.     

Effect of steroids and the estrous cycle on uterine neuromedin U receptor expression

We investigated the role of estrogen and progesterone on rat uterine NmU receptor expression in both intact and ovariectomized animals and examined receptor expression through the estrous cycle. Chronic administration of beta-estradiol 3-benzoate (E2) or progesterone in intact animals was devoid of any effect. RU486 caused a 2-fold up-regulation in NmU receptor density. Ovariectomy caused a 60% decrease in receptor density, but chronic E2 administration to ovariectomized rats significantly increased NmU receptor density. The estrous cycle had no significant effect on NmU receptor density. These results suggest that NmU receptor expression is estrogen-dependent, whereas progesterone or a progestin-induced factor is involved in the modulation of this expression.     

Estrogen receptor in rabbit endocervical cells isolated by velocity sedimentation

Three nonciliated rabbit endocervical epithelial cell types were isolated by velocity sedimentation at unit gravity. Cell Types I and II contained heterogeneous secretory granules, whereas Type III cells were characterized by empty cytoplasmic vacuoles. Previous studies had confirmed the ultrastructural and functional integrity of each cell type and suggested hormone dependence of cell population sizes. Since the concentration of total cytosol estrogen receptor in endocervical epithelial cells from progesterone-dominated, 5-day pseudopregnant rabbits was reduced to approximately 23% of the value for estrous rabbits, receptor concentrations were measured in the three nonciliated epithelial cell types from animals in both hormonal states. The results indicate that the reduction in the estrogen receptor content in progesterone-dominated animals can be attributed to a reduction in the number of Type I and Type II cells, and to a significant (P less than 0.05) reduction in their estrogen receptor concentrations.     

Rapid recovery of nuclear estrogen receptor and oxytocin receptor in the ovine uterus following progesterone withdrawal

We previously showed that progesterone rapidly down regulates nuclear estrogen receptor (Re) in the estrogen-primed rodent uterus. We have now extended these studies to test the response of the Re system in sheep uterus to progesterone withdrawal. Since the estrogen-Re complex is believed to regulate hormone-dependent gene expression, it was of interest to determine whether withdrawal of progesterone under constant estrogen stimulation would lead to the recovery of nuclear Re levels and estrogen action, i.e. oxytocin receptor (ROT) synthesis. Ovariectomized ewes were primed with estradiol-17 beta and serum steroid levels were maintained by constant infusion of estradiol (0.5 microgram/h) and progesterone (500 micrograms/h) for 5 days. The animals were anesthetized with fluothane/O2, and uterine samples were excised 1 h before and 3, 6 and 12 h after progesterone withdrawal. Estradiol infusion was continued during the experiment in order to maintain estrogen levels at a steady state (14 pg/ml plasma). Re, ROT and progesterone receptor (Rp) were measured in endometrium and myometrium using standard 3H-hormone binding assays. Following progesterone withdrawal, the nuclear Re concentration increased in both uterine compartments, and the nuclear Re level was correlated significantly with the ROT concentration in the membrane fraction of both uterine tissues (endometrium, r = 0.79; myometrium, r = 0.86). Although cytosol Re rose between 6 and 12 h in the endometrium, cytosol Re levels remained unchanged in myometrium. Cytosol Rp appeared to increase in endometrium but not in myometrium. Uterine tissue sampled from a control animal before stopping the progesterone infusion revealed that the observed changes in receptor concentration following progesterone withdrawal were not due to regional differences in receptor levels. These results demonstrate that the recovery of nuclear Re in the ovine endometrium and myometrium following progesterone withdrawal represents a selective effect on Re retention in the nucleus rather than on cytosol Re availability or Re activation which was controlled by constant estrogen infusion. Thus, these results are consistent with the hypothesis that progesterone induces an Re regulatory factor which acts to down regulate nuclear Re, and that the activity of this factor diminishes rapidly after progesterone withdrawal.     

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.     

Servomechanism of prolactin and progesterone in regulating uterine gene expression

To investigate the interaction of PRL and progesterone in regulating uterine gene expression, we have quantitated the concentration of PRL receptor and of uteroglobin (UG) mRNA in the endometrium of rabbits of different ages and after treatment with different hormones. During uterine differentiation in 2- to 4-week old rabbits, a marked increase in unoccupied uterine PRL receptor number was observed, presumably increasing uterine sensitivity to PRL. Receptor values for 4-week old rabbits were comparable to values for sexually mature, estrous females, but were lower than in 5-day pseudopregnant (PSP) animals. When total PRL receptor was determined by Scatchard analysis after in vitro desaturation with MgCl2, PSP animals again expressed the highest receptor concentration with no changes in the dissociation constant (Kd) values. To determine whether progesterone regulates uterine PRL receptor, long term ovariectomized rabbits (greater than 12 weeks) were treated with various combinations of hormones, and unoccupied and total uterine PRL receptors were determined. Progesterone treatment resulted in the highest concentration of both unoccupied and total PRL receptor after desaturation and removal of anti-ovine PRL antibodies with MgCl2. The value for total uterine PRL receptor was equivalent to the value for mammary gland, and the Kd values (2-4 x 10(-10) M) were similar. Treatment of long term ovariectomized rabbits with progesterone, with or without estradiol, produced an increase (P less than 0.05) in the UG mRNA content, which also occurred in PSP animals. PRL alone had no effect on UG mRNA but PRL plus progesterone increased (P less than 0.05) UG mRNA in a dose-dependent manner.(ABSTRACT TRUNCATED AT 250 WORDS)     

Progesterone receptor in the rat anterior pituitary: Effect of estrogen priming and adrenalectomy

The present study was done to determine if a progesterone receptor is present in rat pituitary. Cytosol was labeled with ³H-progesterone (3HP) or ³H-RS020 (³HR) and subjected to sucrose-glycerol density-gradient centrifugation. Serum progesterone was measured for correlation with progesterone receptor levels. Two ³HP-binding peaks (4S + 6S) were evident in uterine and pituitary cytosols. The 4S peak was eliminated by competition with unlabeled cortisol leaving a single 6S peak (progesterone receptor). Estradiol (E) priming of the male or female rat increased progesterone receptor levels in pituitary cytosol as demonstrated using ³HP and ³HR, and pituitary progesterone receptor bound ³HR with a higher affinity than ³HP. Following adrenalectomy of gonadectomized rats, progesterone receptor levels were increased in pituitary and uterine cytosol of both E-primed and unprimed groups. An inverse relationship was established between serum progesterone and progesterone receptor levels in the uterus and pituitary suggesting that stressinduced adrenal progesterone secretion significantly influences progesterone receptor levels in the rat. These results demonstrate an estrogen-inducible progesterone receptor in the rat pituitary with properties similar to those of the uterine progesterone receptor.     

Regulation of cytosol and nuclear progesterone receptors in rabbit uterus by estrogen,antiestrogen and progesterone administration

A synthetic progestin, 16α-ethyl-21-hydroxy-19-nor-4-pregnene-3,20-dione (ORG 2058), was utilized to measure progesterone receptors from the rabbit uterus. This steroid has a high affinity for both cytosol and nuclear receptors, with K_D values of 1.2 nM (at 0–4°C) and 2.3 nM (at 15°C), respectively. Administration of estradiol-17β or a non-steroidal antiestrogen, tamoxifen, for 5 days to estrous rabbits led to a progressive rise in the cytosol receptor levels: from 34 000 to 120 000 (estradiol-17β) and 80 000 (tamoxifen) receptors/ cell, without any major influence on the nuclear receptor content. A single intravenous injection of progesterone (5 mg/kg) elicited a 3-fold increase in the mean nuclear receptor content at 30 min after injection (from 18 000 to 48 000 receptors/nucleus). Nuclear receptor accumulation was short-lived and returned to control levels within 4 h after treatment. A second dose of progesterone given 24 h later doubled the nuclear receptor level (from 18 000 to 35 000 receptor/nucleus). The concomitant decline in the cytosol receptor content was twice that accounted for by the nuclear receptor accumulation (70 000 vs. 30 000, and 40 000 vs. 17 000 receptors/cell, after the first and second progesterone injection, respectively). Following progesterone administration, the cytosol receptor level reached a nadir by 30 min, exhibited minimal replenishment within the ensuing 24 h, and remained at approx. 50% of the pretreatment values. After a single dose or two consecutive doses of progesterone, total uterine progesterone receptor content declined to about 60% of the level prior to each dose, a nadir being reached at 2 h after treatment.     

Estrogen action in the mouse uterus: An additional nuclear event

An $\text{in vivo}$ injection of ³H-estradiol to an ovariectomized mouse resulted in the appearance of two increases of nuclear receptor: the first at 1 hr and the second occurring at approximately 7–8 hrs post-injection. These findings were substantiated by quantifying cytoplasmic and nuclear receptor levels with the exchange assay after injections of unlabeled estradiol. Cytosol receptor levels were depleted at 0.5–1 hr and replenished from 2–10 hr with values at 15–24 hr significantly greater than those at zero time. Nuclear receptors decreased precipitously to near control values after the initial translocation event. At 7–8 hr a second smaller nuclear increase occurred which then declined to near zero levels. Both of these nuclear events appear to be dose related. Similar experiments using cycloheximide did not abolish either of these events, but did significantly diminish the cytosol receptor replenishment.     

Characterization and physiological variation of estrogen receptors in rabbit corpora lutea throughout pregnancy and pseudopregnancy: the effect of hysterectomy and sustained estradiol treatment

Previous studies suggest that regression of the rabbit corpus luteum is associated with a uterine-induced loss of responsiveness to estradiol. To determine if this is due to loss of estrogen receptor, cytoplasmic and nuclear estrogen receptors were measured in pseudopregnant, hysterectomized-pseudopregnant and pregnant rabbits throughout luteal life. Estrogen receptor levels were higher in corpora lutea than in nonluteal tissue and were generally higher in nuclei compared to cytosol. Estrogen receptor levels were low on Day 3, increased 2- to 3-fold by Day 6-8, reached peak levels by Days 8-10, and then gradually decreased in a pattern similar to the pattern of serum progesterone typical of each group. Hysterectomy was not associated with elevated cytoplasmic or nuclear estradiol receptor levels. When hysterectomized rabbits were treated with estradiol-filled Silastic implant on Day 1, nuclear estradiol receptor levels fell by Day 20 to levels seen in untreated hysterectomized rabbits. Despite substantial losses in nuclear estrogen receptor, serum progesterone remained elevated on Days 16 and 20. Thus, the ability of estradiol to maintain serum progesterone in hysterectomized rabbits did not correlate directly with the level of estrogen receptor.     

Regulation of uterine progesterone receptors by the nonsteroidal anti-androgen hydroxyflutamide

We have recently reported that the anti-androgen hydroxyflutamide causes delayed implantation and exhibits antideciduogenic activity in the rat. The present experiments were conducted to examine whether hydroxyflutamide binds to the uterine progesterone receptors and/or alters the progesterone binding sites in the uterus. Cytosol and nuclear fractions from decidualized rat uterus were incubated with [3H]-R5020 without or with increasing concentrations of radioinert R5020, RU486, dihydrotestosterone, or hydroxyflutamide. From the log-dose inhibition curves, the relative binding affinity of both hydroxyflutamide and dihydrotestosterone was less than 0.1% and 2%, compared with R5020 (100%) for displacing [3H]-R5020 bound to uterine cytosol and nuclear fractions, respectively. Injection of estradiol-17 beta (1 microgram/rat) to ovariectomized prepubertal rats induced a 1.85-fold increase in uterine weight by 24 h. Hydroxyflutamide at 2.5 or 5.0 mg did not significantly alter the estrogen-induced increase in uterine weight. Compared to vehicle alone, estrogen induced an approximately 5-fold increase in uterine cytosolic progesterone binding sites. Hydroxyflutamide at both 2.5- and 5.0-mg doses significantly attenuated the estrogen-induced elevation in uterine progesterone binding sites. These studies demonstrate that hydroxyflutamide does not bind with high affinity to progesterone receptors, but suppresses the estrogen-induced elevation in progesterone receptor levels in the uterus.     

Binding and retention of estrogen in the uterus of hamsters treated neonatally with diethylstilbestrol

We have shown previously that postpubertal estrogen exposure promotes the development of uterine tumors in hamsters treated neonatally with diethylstilbestrol (DES). The purpose of this study was to determine if the uterine estrogen receptor system of adult hamsters was altered after neonatal DES treatment. There was no effect on the concentration, subcellular distribution, apparent binding affinity, sedimentation properties, surface charge characteristics or ligand specificity of uterine estrogen receptor in ovariectomized, estrogen-replaced animals. Furthermore, neonatal DES treatment had no effect on the subcellular distribution of radioactivity in the uterus of adult animals ovariectomized 1 week before challenge with [³H]-estradiol-17β(E₂). However, the amount of radioactivity taken up and specifically bound within the uterus 6 h after [³H]-E₂ challenge was less in DES-treated compared to control animals. Six hours after challenge with unlabeled E₂, the concentration (pmol/g tissue) of occupied but not total nuclear estrogen receptor was reduced in DES-treated animals. The difference in uterine radioactivity levels and occupied nuclear receptor retention appears to be due to a difference in estrogen metabolism since the systemic concentration of authentic [³H]-E₂ was lower in DES-treated animals compared to control. These results demonstrate no DES-induced change in the physicochemical or functional properties of the uterine estrogen receptor system, suggesting that a lesion in this receptor system is not involved in the etiology of uterine tumor development following neonatal DES exposure. However, the DES-treated animal appears to have an enhanced estrogen metabolism.     

Chronic estrogen treatment causes an alteration in uterine estrogen receptor dynamics of rats

Estrogen receptor content and dynamics in the uteri obtained from chronically estrogenized rats were analyzed. 12 day treatment with a subcutaneous implantation of a diethylstilbestrol pellet resulted in maximal stimulation of uteri with regard to wet tissue weight, DNA content, as well as progesterone receptor content without significant alteration of the estrogen receptor level. Estrogen receptor dynamics in just ovariectomized or ovariectomized and diethylstilbestrol-stimulated rats elicited by a single injection of estradiol were next examined using the exchange methods. The cytosol receptor content rapidly declined, with a small and temporary accumulation of the nuclear receptor in the uterus from rats continuously exposed to diethylstilbestrol during the preceding 12 days. A relatively rapid cytosol receptor replenishment was also observed in rats pretreated with diethylstilbestrol. This was accompanied by a rapid decrease in the nuclear receptor level to 70% of the preinjection value at 5 h after estradiol administration. These data are in contrast to findings on uteri of ovariectomized and nonestrogen-treated rats, in which a single injection of estradiol resulted in a prolonged nuclear receptor retention and a delayed cytosol receptor replenishment. Adrenalectomy did not result in a significant change of receptor dynamic patterns, suggesting that adrenal steroids do not play a role in the alteration of receptor dynamics elicited by continuous stimulation with diethylstilbestrol. These observations suggest that a continuous exposure of rat uteri to the estrogen causes an altered regulation of estrogen receptor dynamics by the homologous steroid compared to those in chronically estrogen-deprived rats.     

Oxytocin secretion induced by osmotic stimulation in rats during the estrous cycle and after ovariectomy and hormone replacement therapy

Hyperosmolality is a potent stimulus for the secretion of oxytocin. Oxytocinergic neurons are modulated by estrogen and oxytocin secretion in rats varies according to the phase of the estrous cycle, with higher activity during proestrus. We investigated the oxytocin secretion induced by an osmotic stimulus (0.5 M NaCl) in female rats. Plasma oxytocin and the oxytocin contents in the neurohypophysis and the paraventricular and supraoptic nuclei were determined during the morning (8-9 h) and afternoon (17-18 h) of the estrous cycle and after ovariectomy followed or not by hormone replacement. Plasma oxytocin peaked in control animals during proestrus. Oxytocin content decreased in the paraventricular and supraoptic nuclei during proestrus and estrus compared to diestrus and increased in the neurohypophysis during proestrus morning. No significant difference was observed in the oxytocin content of the neurohypophysis, nuclei or plasma between ovariectomized animals and ovariectomized animals treated with estrogen or estrogen plus progesterone. Therefore, any ovarian factor other than estrogen or progesterone seems to play a direct or indirect role in the increase in oxytocin secretion. The osmotic stimulus caused an increase in plasma oxytocin throughout the estrous cycle. A reduction in oxytocin content during diestrus and an increase during proestrus were observed in the paraventricular nuclei. In ovariectomized animals, the treatment with estrogen potentiated the response of oxytocin to the osmotic stimulus, with the response being even stronger in the case of estrogen plus progesterone. In conclusion, the ovarian steroids estrogen plus progesterone could modulate the osmoreceptor mechanisms related to oxytocin secretion.     

Bovine Uterine,Cervical and Ovarian Androgen Receptor Concentrations

Bovine cytosol androgen receptor (ARC) concentrations were examined simultaneously in various regions of the uterus and in ovarian tissues of cows, and were related to cytosol estrogen (ERC) and progesterone receptor (PRC) concentrations and circulating steroid levels. ERC concentrations were 3-7-fold and PRC concentrations 13-29-fold those of ARC in bovine endometrial and myometrial tissues. When serum progesterone levels were low, both endometrial and myometrial ARC, endometrial ERC, and endometrial and myometrial PRC concentrations were higher (p<0.05) than those observed during higher progesterone concentrations. Because serum 5α-dihydrotestosterone (5α-DHT) concentrations were higher during the luteal phase, it is possible that ARC was down-regulated by this natural ligand at this phase of the cycle. There were no differences between uterine horns in endometrial or myometrial ARC concentrations. Bovine cervical and ovarian stromal tissue also contained ARC, and the concentrations were about the same as in the endometrium and the myometrium. The relative binding affinities (RBAs) of some steroid hormones towards ARC in vitro were: the synthetic compound R1881 (146%), 5α-dihydrotestosterone (100%), testosterone (75%) while estradiol-17β, progesterone and dexamethasone had lower RBAs (2, <1, <1% respectively). Cytosol androgen receptor concentrations correlated significantly with cytosol progesterone (PRC) and estrogen receptor (ERC) concentrations, both in the endometrium and myometrium. These data show that androgens, such as 5α-DHT, may participate the endocrine regulation of bovine reproductive tissues.     

Non-stoichiometric nuclear-cytoplasmic redistribution of estrogen receptor in adult rat uterus, following estradiol injection

In immature and ovariectomized rats acutely injected with estradiol (E2), accumulation of estradiol receptor complexes (E2R) from the uterine cytosol to the nucleus has been shown to be quantitative by numerous investigators. In the present study, translocation of E2R from the cytosol to the nuclear fraction in adult and ovariectomized estrogen prestimulated rats was analyzed. Twenty micrograms of E2, dissolved in saline containing 10% ethanol and 1 g% bovine serum albumin (B.S.A.) were injected intraperitoneally to the animals and 2 h later E2R in the cytosol and crude nuclear fractions were assayed by exchange techniques. Unlike a 91% recovery of the depleted cytosol E2R in the nuclear fraction of ovariectomized rats, only 39.2 and 27.5% were recovered in the adult and ovariectomized estrogen prestimulated rat uterus respectively. Moreover, depending on the temperature and duration of nuclear suspension incubation, from 18 up to 80% of the recovered nuclear E2R were solubilized in the incubation medium and nuclear post-incubation washes and could be measured by hydroxylapatite treatment (HAP). Saturation assays showed a plateau from 12 nM E2 3H onwards up to 80 nM. The Kd values computed for the receptors in the nucleus and HAP in all the three groups were of the order of 2 X 10(-9) M. In conclusion, after E2 administration to adult or ovariectomized estrogen prestimulated rats, a stoichiometric recovery of the depleted cytosol E2R in the nuclear fraction was not observed, even when leakage of nuclear receptor into the medium in course of exchange was taken into account. Chronic estrogenization appeared to modify the dynamics of uterine receptor.