Coumestrol antagonizes neuroendocrine actions of estrogen via the estrogen receptor alpha

The phytoestrogen coumestrol has estrogenic actions on peripheral reproductive tissues. Yet in the brain this compound has both estrogenic and anti-estrogenic effects. We used estrogen receptor alpha knockout mice (ERalphaKO) to determine whether coumestrol has estrogenic actions in mice and also if these effects are mediated by the classic ERalpha. Female wild-type (WT) and ERalphaKO mice were ovariectomized and treated with estradiol (E2), dietary coumestrol, both, or neither compound. Ten days later the animals were sacrificed, blood was collected, and brain tissues were perfused. Fixed brains were sectioned and immunocytochemistry was employed to quantify progesterone receptors (PR) in the medial preoptic (POA) and ventromedial nucleus of the hypothalamus (VMN). Plasma was assayed for luteinizing hormone (LH). Estrogen treatment induced PR immunoreactivity in both regions in brains of WT females. In ERalphaKO mice, lower levels of PR were induced. The stimulatory effects of E2 on PR were attenuated in the POA by cotreatment with coumestrol, and the same trend was noted in the VMN. WT ovariectomized females treated with E2 had low levels of LH, while LH was high in untreated females and even higher in ovariectomized females treated with coumestrol. ERalphaKO females in all treatment groups had high levels of LH. Taken together, the results show that coumestrol has anti-estrogenic actions in the brain and pituitary and that ERalpha mediates these effects.     

Particulate nature of the unoccupied uterine estrogen receptor

Homogenization of rat uteri at 25 degrees C resulted in a particulate partitioning of the estrogen receptor. Homogenization at 0 degrees C, the use of frozen tissue, or the pre-exposure of the tissue to 0 degrees C prior to 25 degrees C homogenization induced soluble partitioning of the estrogen receptor. Binding of a radiolabeled monoclonal antibody indicated that, in absence of estradiol, the estrogen receptor is particulate and is associated with the nuclei-enriched fraction of the target cell. The presence of receptor in the soluble fraction thus appears to be an artifact of homogenization. The unoccupied receptor, loosely associated with the particulate fraction (cold-sensitive) represents the "native" form of receptor which, upon arrival of the hormone, becomes tightly associated (cold-insensitive). The transition from the cold-sensitive to the cold-insensitive status is accompanied by a modification of the electrical charge of the receptor.     

Estradiol down-regulation of the rat uterine estrogen receptor

We have previously shown that neonatal exposure of rats to pharmacologic doses of diethylstilbestrol via daily injections resulted in a significant decrease in the estrogen-binding capacity of the uterine estrogen receptor (ER). In this study, we examined the effects of physiologic and pharmacologic doses of estradiol (E2) administered to adult ovariectomized rats via Silastic implants. Two days after implantation, uteri were removed, weighted, and homogenized, and ER levels were determined in the supernatant (hydroxylapatite assay) and low-speed pellet (nuclear exchange assay). Implants containing E2 concentrations of 0.005 or 0.05 mg/ml increased cytosolic but not total ER-binding capacity, whereas 0.5 or 5.0 mg of E2/ml implants decreased the binding capacity of cytosol ER to 40% and total ER to 50% of control values. The 0.005-mg/ml dose increased cytosol ER without increasing uterine weight; all higher doses significantly increased uterine weight. Determination of ER protein by an ER radioimmunoassay showed the same extent of reduction of ER concentration as the binding assays, demonstrating that the loss in E2 binding capacity is homologous down-regulation. The down-regulation of ER was maximal at 24 hr and was completely reversible after implant removal, although the time required to recover from down-regulation was dose dependent. Uterine weight also returned to control levels slowly after implant removal. Neither the sedimentation rate of the down-regulated ER nor the Kd of the cytosolic ER changed following long-term implantation; however, the Kd of the nuclear ER decreased significantly. This is the first demonstration of in vivo homologous down-regulation of uterine ER. ER down-regulation may play a role in several biologic processes.     

Characterization of two extracellular proteases fromLeuconostoc oenos

Two extracellular proteolytic activities were characterized fromLeuconostoc oenos isolated from Argentinian wines. Both activities were maximal with autoclaved grape juice as substrate. The temperature and pH optima for the two proteolytic activities were different (30 and 40°C, and pH 4.0 and 5.5, respectively). Both enzymes were thermostable and their activities were unaltered by heating at 70°C for 15 min. Metal ions were not required for the activities. Neither enzyme appeared to be a serine protease but both were strongly inhibited by cysteine and -mercaptoethanol, indicating the involvement of disulphide bridges.The authors are with the Centro de Referencia para Lactobacilos (CERELA), Chacabuco 145, 4000 Tucumán, Argentina M.E. Farías and M.C. Manca De Nadra are also with the Facultad de Bioquímica, Quimica y Farmacia, Universidad Nacional de Tucumán, 4000 Tucumán, Argentina.     

Effect of phospholipids on estrogen receptor of rat uterine cytosol

Phospholipids such as phosphatidyl inositol and phosphatidyl serine inhibit the binding of R5020 and progestin receptors. The effect of phospholipids on the binding of estrogen and estrogen receptors of rat uterine cytosol was studied. Phosphatidyl choline, sphingomyelin, phosphatidyl inositol, phosphatidyl ethanolamine, cardiolipin, and phosphatidic acid inhibited the binding of estradiol and estrogen receptors. This inhibitory effect of phosphatidyl inositol and cardiolipin was dose dependent.     

Rapid and estrogen receptor beta mediated actions in the hippocampus mediate some functional effects of estrogen

The steroid hormone, estradiol (E(2)), has numerous targets in the central nervous system, including the hippocampus, which plays a key role in cognition and affective behavior. This review focuses on our evidence from studies in rodents that E(2) has diverse mechanisms in the hippocampus for its functional effects. E(2) has rapid, membrane-mediated effects in the hippocampus to enhance cognitive performance. Administration of E(2) to the hippocampus of rats for 10 min following training enhances performance in a hippocampus-mediated task. Increased cell firing in the hippocampus occurs within this short-time frame. Furthermore, administration of free E(2) or an E(2) conjugate, E(2):bovine serum albumin (BSA), to the hippocampus produces similar performance-enhancing effects in this task, suggesting that E(2) has membrane actions in the hippocampus for these effects. Further evidence that E(2) has rapid, membrane-mediated effects is that co-administration of E(2) and inhibitors of mitogen-activated protein kinase (MAPK), rather than intracellular E(2) receptors (ERs) or protein synthesis, attenuate the enhancing effects of E(2) in this task. Despite these data that demonstrate E(2) can have rapid and/or membrane-mediated effects in the hippocampus, there is clear evidence to suggest that intracellular ERs, particularly the beta (rather than alpha) isoform of ERs, may be important targets for E(2)'s functional effects for hippocampal processes. Administration of ligands that are specific for ERbeta, but not ERalpha, have enhancing effects on hippocampal processes similar to that of E(2) (which has similar affinity for ERalpha and ERbeta). These effects are attenuated when ERbeta expression is knocked down in transgenic models or with central administration of antisense oligonucleotides. Thus, there may be a convergence of E(2)'s actions through rapid, membrane-mediated effects and intracellular ERs in the hippocampus for these functional effects.     

Inhibition of the actions of peroxisome proliferator-activated receptor alpha on obesity by estrogen

Objective: To determine whether the major ovarian factor estrogen modulates peroxisome proliferator‐activated receptor (PPAR) α actions on obesity and to investigate the mechanism by which estrogen regulates PPARα actions. Research Methods and Procedures: Female ovariectomized mice were randomly divided into four groups (n = 8/group). After they were treated with combinations of high fat, fenofibrate (FF), or 17β‐estradiol (E) for 13 weeks, variables and determinants of obesity and lipid metabolism were measured using in vivo and in vitro approaches. Results: When female ovariectomized mice were given a high‐fat diet with either FF or E, body weight gain and white adipose tissue mass were significantly reduced and serum lipid profiles were improved compared with control mice fed a high‐fat diet alone. When mice were concomitantly treated with FF and E, however, E reversed the effects of FF on body weight gain, serum lipid profiles, and hepatic PPARα target gene expression. Consistent with the in vivo data, E not only decreased basal levels of PPARα reporter gene activation but also significantly decreased Wy14,643‐induced luciferase reporter activity. In addition, inhibition of PPARα functions by E did not seem to occur by interfering with the DNA binding of PPARα. Discussion: Our results demonstrate that in vivo and in vitro treatment of estrogen inhibited the actions of FF‐activated PPARα on obesity and lipid metabolism through changes in the expression of PPARα target genes, providing evidence that FF does not regulate obesity in female mice with functioning ovaries.     

Continuous estrogen exposure in the rat does not induce loss of uterine estrogen receptor

Cytosol estrogen receptor (ERc) and nuclear estrogen receptor (ERN) levels were investigated in rat uteri under different conditions of hormonal exposure. The amount of directly assayable receptor was closely related to the serum concentration of 17 beta-[2,4,6,7-3H] estradiol ( [3H]E2). A double injection technique was established to maintain serum levels of [3H]E2 which were sufficient to saturate receptor sites. Under these conditions, stable ERC and ERN levels are maintained throughout the study period. 30% of the total ER remains cytoplasmic in localization despite continuous hormonal exposure. Properties of ERC and ERN after 6 h of continuous hormonal exposure were investigated and found to be different from receptors found in these subcellular compartments 30 min after hormone injections. ERC from uteri 30 min after injection showed a faster sedimentation coefficient than ERC prepared 6 h after hormone treatment. ERC after 6 h of hormonal exposure showed a reduction of binding to calf thymus DNA adsorbed on cellulose in a cell-free system. ERC 30 min after [3H]E2 treatment had a biphasic dissociation pattern consistent with two different receptor populations, whereas uterine ERC obtained after 6 h of in vivo exposure to estradiol showed virtually no dissociation at 22 and 28 degrees C. In contrast to ERC, ERN 6 h after hormone injection sedimented faster than ERN obtained 30 min after treatment. KCl extractable ERN obtained either at 30 min or 6 h posthormone treatment showed biphasic dissociation kinetics at 22 and 28 degrees C, whereas KCl nonextractable ERN showed virtually no dissociation. Virtually all of the specifically bound ligand in cytosol and nuclear preparations was proven to be authentic E2. We conclude that total cellular receptor is quantitatively conserved during 6 h of continuous hormonal treatment. Nuclear receptor loss is not a requisite for receptor-mediated steroid function, although important time-dependent changes in receptor properties in both cytoplasmic and nuclear compartments do occur.     

Transformation of the rat uterine estrogen receptor after partial purification

Warming crude rat uterine cytosol after the addition of [³H] estradiol accelerates the association of the 4-S estrogen-binding protein with a second macromolecule, resulting in the formation of the 5-S estrogen-binding protein. To determine whether the 5-S estrogen-binding protein consists of two similar or dissimilar subunits, uterine cytosol was subjected to a number of fractionation procedures that separate macromolecules by solubility, molecular gel sieving, sedimentation rate, ionic charge, and heat lability. Following each of these methods, the fraction containing the 4-S estrogen-binding protein was incubated at 28°C; each of these 4-S estrogen-binding protein-containing fractions retained its capacity to completely transform to the 5-S estrogen-binding protein. In samples subjected to partial purification procedures, it was necessary that the buffer contain 40 mM Tris, 60 mM KCI, 1–10 mM dithiothreitol, and 1 M urea at pH 7.4, in order to accomplish the 4-S to 5-S estrogen-binding protein transformation at 28°C. Formation of the 5-S estrogen-binding protein requires association of the 4-S estrogen-binding protein with a molecule identical to or very similar to itself.     

Characterization of proteolytic bacteria from the Aleutian deep-sea and their proteases

Six deep-sea proteolytic bacteria taken from Aleutian margin sediments were screened; one of them produced a cold-adapted neutral halophilic protease. These bacteria belong to Pseudoalteromonas spp., which were identified by the 16S rDNA sequence. Of the six proteases produced, two were neutral cold-adapted proteases that showed their optimal activity at pH 7–8 and at temperature close to 35°C, and the other four were alkaline proteases that showed their optimal activity at pH 9 and at temperature of 40–45°C. The neutral cold-adapted protease E1 showed its optimal activity at a sodium chloride concentration of 2 M, whereas the activity of the other five proteases decreased at elevated sodium chloride concentrations. Protease E1 was purified to electrophoretic homogeneity and its molecular mass was 34 kDa, as estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). The molecular weight of protease E1 was determined to be 32,411 Da by mass spectrometric analysis. Phenylmethyl sulfonylfluoride (PMSF) did not inhibit the activity of this protease, whereas it was partially inhibited by ethylenediaminetetra-acetic acid sodium salt (EDTA-Na). De novo amino acid sequencing proved protease E1 to be a novel protein.     

Immunological analysis of the biochemical properties of the uterine estrogen receptor

Immunohistochemical and immunochemical analysis using Western blot techniques were carried out with estrogen receptor (ER) monoclonal antibody H-222 to 1) clarify the "nuclear translocation" phenomenon of ER, 2) elucidate the primary nuclear binding site of ER, and 3) to evaluate the binding force between ER and its nuclear binding site in the uterus of ovariectomized adult mice. Exclusive nuclear localization of ER was recognized in the epithelial cells, stroma cells, and smooth muscle cells. Uterine tissues prepared from animals injected with saline, 17 beta-estradiol (E2), estriol (E3), and diethylstilbestrol (DES) exhibited almost the same ER immunostaining when they were fixed prior to sectioning (prefixation method) and frozen sections were used. On the other hand, when fresh-frozen sections were fixed before or after incubation with various solutions (postfixation method) and then treated with various salt solutions, greater differences were seen in immunostaining of ER between saline-injected and hormone-treated animals. Immunostaining of ER in control animals was low after incubation with PBS (0.01 M phosphate buffer containing 0.16 M NaCl, pH 7.2), whereas uterine tissue from hormone-injected mice showed strong nuclear immunostaining after this treatment. After treatment with 0.4 M KCl or 0.5 M NaCl, immunostaining in the uterus of both hormone-injected and control animals was completely abolished. DNase treatment caused an almost complete loss of immunostaining of ER; however, RNase digestion slightly increased immunoreactivity in both E2-injected and control animals. Quantitative analysis using sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blot techniques showed that after incubation of tissue sections for 30 min with PBS, 0.4 M KCl, or DNase, 60%, 10%, and 30% of ER were present, respectively, compared to amount of ER present in unincubated sections. These findings suggest the following for the ER in uterine tissue; nuclear occupancy is a phenomenon that occurs due to a differential affinity between occupied and unoccupied receptors in the nucleus; after hormone treatment, the receptor levels do not fluctuate in the nucleus to the extent demonstrated by binding assays; and the properties of the ER detected in the immunohistochemical analysis are identical to those observed in biochemical studies.     

A nuclear transforming factor that converts the goat uterine nonactivated estrogen receptor to nuclear estrogen receptor II

A 62-kDa nuclear protein that transforms the goat uterine nonactivated estrogen receptor (naER) to nuclear estrogen receptor II (nER II) has been isolated and purified. This is being identified as the naER-transforming factor (naER-TF). The transformation is achieved through deglycosylation of the naER. It is observed that the naER-TF action on the naER introduces significant changes in the structural and functional features of the naER. The capacity of the naER to bind estradiol increases 8- to 10-fold, while its hormone binding affinity reduces to a considerable extent following its exposure to naER TF. There is a critical ratio in the concentration of the two proteins, the TF and the naER, that would ensure an optimum transformation process. The transformed naER is incapable of dimerization with the estrogen receptor activation factor (E-RAF).     

Replenishment of uterine estrogen receptor in chronically estrogenized rats

Replenishment of uterine estrogen receptor (ER) following a single injection of estradiol-17 beta (E2) was examined in chronically estrogenized rats. Subcutaneous implantation of E2-pellet for 7 days in ovariectomized rats resulted in a significant stimulation of uteri with regard to wet tissue weight, DNA content and progesterone receptor content, with a shift of ER distribution. An intraperitoneal injection of 5 micrograms E2 in the E2-implanted rats induced a significant decrease in soluble ER (from 141.1 +/- 12.6 to 69.2 +/- 8.8 fmol/mg protein) with a concomitant increase in nuclear ER (from 58.2 +/- 8.6 to 129.2 +/- 11.6 fmol/100 micrograms DNA) 1 h after the injection. However, soluble ER was rapidly replenished, which was accompanied by nuclear ER reduction, and both values returned to the pre-injection levels at 4 h after the injection. An administration of 150 micrograms cycloheximide, that effectively blocked protein synthesis in the uterus of the E2-implanted rats, completely inhibited the replenishment of soluble ER induced by 5 micrograms E2. These findings, combined with our previous findings that replenishment of ER following a single E2 administration in the pituitary of chronically estrogenized rats was inhibited by cycloheximide, suggest that replenishment of ER is entirely dependent on protein synthesis in chronically estrogenized rats.     

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.     

Transformation of the rat uterine estrogen receptor after partial purification.

Warming crude ratuterine cytosol after the addition of [3H] estradiol accelerates the association of the 4-S estrogen-binding protein with a second macromolecule, resulting in the formation of the 5-S estrogen-binding protein. To determine whether the 5-S estrogen-binding protein consists of two similar or dissimilar subunits, uterine cytosol was subjected to a number of fractionation procedures that separate macromolecules by solubility, molecular gel sieving, sedimentation rate, ionic charge, and heat lability. Following each of these methods, the fraction containing the 4-S estrogen-binding protein was incubated at 28 degrees C; each of the these 4-S estrogen-binding protein-containing fractions retained its capacity to completely transform to the 5-S estrogen-binding protein. In samples subjected to partial purification procedures, it was necessary that the buffer contain 40 mM Tris, 60 mM Tris, 60 mM KC1, 1-10 MM dithiothreitol, and 1 M urea at pH 7.4, in order to accomplish the 4-S to 5-S estrogen-binding protein transformation at 25 degrees C. Formation of the 5-S estrogen-binding protein requires association of the 4-Estrogen-binding protein with a molecule identical to or very similar to itself.     

Effect of estradiol on estrogen receptor expression in rat uterine cell types

In rodent uterus, both up- and down-regulation of estrogen receptor alpha (ERalpha) messenger ribonucleic acid (mRNA) and protein levels by estradiol has been demonstrated; however, it is not known which of the uterine compartments (endometrial epithelium, stroma, myometrium) respond to estradiol with autoregulation of ERalpha. The purpose of the present study was to investigate and compare the kinetics and cell type-specific effects of estradiol on uterine ERalpha expression in immature and adult rats. Ovariectomized female rats were injected s.c. with sesame oil or estradiol-17beta. Uteri were collected and analyzed for changes in ERalpha mRNA using RNase protection assays (RPA) and in situ hybridization using radiolabeled probes specific for ERalpha. Immunohistochemical analysis was performed with a polyclonal antibody specific to ERalpha. Expression of ERalpha in the uterine epithelial cells decreased at 3 and 6 h after estradiol administration to immature and adult rats, respectively. At 24 h, ERalpha mRNA levels in the immature and mature rat uterus were higher than pretreatment levels but returned to baseline by 72 h. Pretreatment with cycloheximide did not block the 3-h repressive effect of estradiol, suggesting that the estradiol-induced decrease in ERalpha mRNA occurs independent of new protein synthesis. A decrease in ERalpha mRNA and protein was also observed in uterine epithelia at 3 and 6 h after an estradiol injection to immature and adult rats, and intensity of both the in situ hybridization signal and the immunostaining in the epithelium increased at 24 and 72 h. However, the periluminal stromal cells in the adult uterus and the majority of stromal cells of the immature uterus appeared to have increased ERalpha expression. The results indicate that down-regulation of ERalpha in the epithelia and up-regulation of stromal ERalpha play a role in early events associated with estradiol-induced cell proliferation of the uterine epithelia.