UNIPROT:P06889 - FACTA Search

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The biological actions of estrogen are manifest through two genetically distinct estrogen receptors (ER alpha and ER beta) that display nonidentical expression patterns in target tissues. The phenotypic alterations in response to estrogens in mice disrupted for either or both of these receptors are not identical, suggesting that each subtype plays a unique role in ER-action. However, the lack of subtype-specific agonists and antagonists has made it difficult to define the processes that are regulated by ER alpha and/or ER beta. Previously, we have reported the identification and characterization of a series of LXXLL-containing peptide antagonists that block estrogen signaling by preventing the association of ER alpha with required coactivators. As expected, given the similarity of the coactivator binding pockets among nuclear receptors, most of the peptide antagonists identified inhibited the activity of multiple receptors. However, by altering sequences flanking the core LXXLL motif, some receptor selectivity was afforded. Building on this observation, we have screened combinatorial phage libraries, expressing peptides in the format X7LXXLLX7, for peptides that interact in a specific manner with ER beta. Using this approach, a series of highly specific, potent peptide antagonists have been identified that efficiently inhibit ER beta-mediated estrogen signaling when introduced into target cells. Interestingly, in cells where both ER subtypes were expressed, these ER beta antagonists were capable of attenuating ER action, suggesting that ER alpha and ER beta do indeed form functional heterodimeric complexes. We believe that suitably formulated versions of these peptides can be used to study ER beta action in vitro and in vivo. In addition, the unanticipated specificity of the peptides identified should serve as an impetus to investigate the use of this approach to develop peptide antagonists of other nuclear receptors and unrelated transcription factors.
Mol Endocrinol 2000 Dec
PMID:Development of peptide antagonists that target estrogen receptor beta-coactivator interactions. 1111 31

To investigate the potential importance of oestrogen as a local regulator of human corpus luteum function, the mRNA expression pattern and cellular localization of oestrogen receptors (ERs), ER-alpha and ER-beta, were studied in corpora lutea grouped according to age, where days 2-5 post-LH rise were designated as the early luteal phase, days 6-10 as mid-luteal and days 11-14 as the late luteal phase respectively. Northern blot analysis using an ER-beta probe in samples from whole ovarian tissue and isolated corpora lutea, revealed a major band at 7.5 kb and several minor bands between 4-10 kb, while no signals for ER-alpha mRNA were obtained. However, using a semi-quantitative reverse transcription-polymerase chain reaction followed by Southern blotting, ER-beta mRNA levels were found to be 63% lower (P: < 0.05, n = 39) in the mid-luteal phase compared with the early luteal phase, while ER-alpha mRNA expression showed no statistical differences between the different age groups. Using in-situ hybridization, ER-beta mRNA expression was localized to the steroidogenic luteal cells as well as perivascular cells and fibroblasts in the corpus luteum. Immunohistochemistry confirmed the localization of ER-beta protein, but no clear staining of luteal cells was found using antibodies against ER-alpha. Collectively, the findings of low to moderate expression of ER-beta mRNA and protein in the steroidogenic cells, and also in vascular endothelial cells of the corpus luteum, as opposed to diminutive amounts of ER-alpha mRNA, suggest that oestrogen activity is primarily transduced via ER-beta in the human corpus luteum.
Mol Hum Reprod 2001 Feb
PMID:Dominant expression and distribution of oestrogen receptor beta over oestrogen receptor alpha in the human corpus luteum. 1116 Aug 39

Ischemic heart disease is more prevalent in men than in women. The remodeling of extracellular matrix, is a structural correlate of heart failure of ischemic origin and proliferation of cardiac fibroblasts is a key factor in this remodeling. We asked if proliferative response of male and female cardiac fibroblasts is differentially susceptible to hypoxia. DNA synthesis, using 3H-thymidine incorporation was compared under hypoxia (2% O2) in cardiac fibroblasts obtained from adult, age-matched male and female rat heart. In female cells DNA synthesis remained unchanged under hypoxia and this resistance was dependent on tyrosine kinase activation, as it was abolished in the presence of genistein, a tyrosine kinase inhibitor. Male cells, on the other hand, were susceptible to hypoxia and their DNA synthesis was reduced significantly (70%, (p < 0.0001). This effect was partially reversed by inhibition of tyrosine kinase. Western analysis showed a higher abundance of tyrosine phosphorylated proteins in male cells compared to female cells as well as differences in molecular weight of basal and hypoxia-induced tyrosine-phosphorylated proteins between male and female cells. The presence of estrogen (17-beta estradiol, 10 nM) altered the response of both cells to hypoxia. In female cells the combined effect of hypoxia and estrogen led to inhibition of DNA synthesis, whereas in male cells estrogen partially reversed the hypoxia-induced inhibition of DNA synthesis (37% (p < 0.01) inhibition in the presence of estrogen vs. 70% (p < 0.0001) inhibition in the absence of estrogen). The effects of estrogen in male and female cells were mediated via estrogen receptors as they were reversed by the pure anti-estrogen, ICI 182,780. Western analysis of cell lysate showed hypoxia-induced increase in the level of estrogen receptor beta in both male and female cells. Gel shift analysis showed hypoxia-induced increase in cytoplasmic ERE (estrogen response element)-binding activity and decrease in nuclear ERE-binding in male cells. In female cells cytoplasmic and nuclear ERE-binding activities remained unchanged under hypoxia. Together, these data demonstrate that while female cells are resistant to hypoxia-induced inhibition in DNA synthesis, male cells are susceptible; intracellular pathways involving tyrosine phosphorylation are involved in the response of both cells; and estrogen, via estrogen-receptor-dependent mechanisms, differentially alters the response of male and female cells to hypoxia.
Mol Cell Biochem 2000 Dec
PMID:Gender-related differences in proliferative response of cardiac fibroblasts to hypoxia: effects of estrogen. 1120 52

We evaluated the mechanism of action by the phytoestrogen genistein in the prepubertal rat uterus, when administered pharmacologically or physiologically. Female rats were injected with genistein (500 microg/g body weight), estradiol benzoate (EB) (500 ng/g body weight) or vehicle, dimethylsulfoxide (DMSO), on days 16, 18, and 20 postnatal. In 21-day-old rats, both compounds increased circulating estradiol and decreased progesterone concentrations. Uterine estrogen receptor alpha (ER-alpha) and androgen receptor (AR) proteins were reduced, and progesterone receptors (PR) were increased, as measured by western blot analyses. Immunohistochemistry for ER-alpha was confirmatory. Reverse transcription-polymerase chain reaction (RT-PCR) analyses indicated a decrease in ER-alpha, but not in ER-beta, PR and AR mRNA levels following genistein treatment. In prepubertal rats exposed perinatally to 250 mg genistein per kg AIN-76A diet or 250 microg estradiol per kg diet, uterine ER-alpha, AR, and PR proteins were not altered significantly. We conclude that pharmacologic, but not physiologic concentrations of genistein can modulate sex steroid receptor expression in the rat uterus.
Mol Cell Endocrinol 2001 Feb 28
PMID:Sex steroid receptor regulation by genistein in the prepubertal rat uterus. 1122 85

The relative overexpression of estrogen receptor (ER)-alpha exon 5 splicing variant, the disrupted synchronization of ER-beta and ER-alpha expressions, and the suppression of progesterone receptor (PR) form A expression as a transcriptional repressor might be related to metastatic potential of uterine endometrial cancers, leading to poor patient prognosis related to estrogen refractoriness.
J Steroid Biochem Mol Biol 2000 Dec 31
PMID:Steroid receptors and metastatic potential in endometrial cancers. 1128 73

This study used double in situ hybridization (ISH) to examine the colocalization of estrogen receptor beta (ERbeta) mRNA in serotonin neurons of rhesus macaques (Macaca mulatta). In addition, immunocytochemistry (ICC) was used to examine the expression and regulation of ERbeta protein in raphe neurons of the macaque midbrain. For double ISH, monkey specific riboprobes for ERbeta incorporating radiolabeled-UTP and a riboprobe for the human serotonin reuptake transporter (SERT) incorporating digoxigenin were applied to midbrain sections from spayed rhesus macaques. ERbeta mRNA hybridization signal was expressed in most cells containing SERT mRNA in the dorsal and median raphe and pons. There were also non-SERT neurons expressing ERbeta mRNA. In addition, ERbeta protein was detected with an affinity purified polyclonal antibody generated against a synthetic peptide corresponding to the D domain of human ERbeta conjugated to bovine serum albumin (provided by Dr. Philippa Saunders, MRC, Edinburgh). Midbrain sections containing the dorsal raphe from spayed rhesus macaques with and without hormone replacement therapy were processed for ERbeta immunostaining. ERbeta protein was detected at a similar intensity and in a similar number of cells in the dorsal raphe neurons in all treatment groups. Thus, the expression of ERbeta protein in the dorsal raphe was consistent with the expression of ERbeta mRNA. In conclusion, ERbeta mRNA is expressed by serotonin neurons and it is translated to protein. ERbeta protein, like ERbeta mRNA, is detected at similar levels in the presence or absence of ovarian hormones.
Brain Res Mol Brain Res 2001 Jul 13
PMID:Estrogen receptor beta (ERbeta) mRNA and protein in serotonin neurons of macaques. 1145 88

The recent findings that estradiol-induced IP(3)/PKC-alpha signalling pathway triggers DNA synthesis in HepG2 cells, containing estrogen receptor unable to stimulate gene transactivation, raises the hypothesis that this pathway represents an alternative signalling present when the amount of estrogen receptor (ER) is insufficient to mediate genomic effects. beta-estradiol-stimulated DNA synthesis and target gene expression have been studied in HepG2 and, ER-alpha or ER-beta negative, HeLa cells. We also examined whether either receptor is required for rapid effects of estrogen on DNA synthesis. Finally, the consequences of increased ER expression on estrogen-induced DNA synthesis and synthetic target gene expression have been evaluated. Our data indicate that the E2-induced IP(3) production is dependent on expression of either ER-alpha or ER-beta in both HepG2 and HeLa cells. Moreover, inhibition of the IP(3) second messenger pathway blocks E2-induced cellular actions suggesting that this second messenger is responsible for estrogen's rapid, non-genomic effects on both DNA synthesis and gene expression.
Mol Cell Endocrinol 2001 Aug 20
PMID:Estradiol-induced IP(3) mediates the estrogen receptor activity expressed in human cells. 1150 Feb 35

A novel ER-subtype, the ER-beta has recently been characterized in various tissues, furthermore five isoforms of the ER-beta are known (ER-beta1--ER-beta5). Using immunoblotting and real- time RT-PCR, ER-alpha and beta were studied in human adipose tissue. The expression of ER-alpha mRNA was equal in subcutaneous gluteal adipose tissue, subcutaneous abdominal and intra-abdominal adipose tissue, similar findings were obtained at the protein level. In contrast the amount of ER-beta1 (protein and mRNA) was significantly lower in intra-abdominal adipose tissue as compared with the subcutaneous adipose tissue (five-fold lower in women, P<0.005 and three-fold lower in men, P<0.005) whereas the expression of ER-beta4 and -beta5 mRNA isoforms were significantly higher in gluteal adipose tissue compared to subcutaneous abdominal adipose tissue. No significant gender differences in ER expression was detected in any of the fat depots investigated. During adipocyte differentiation the expression of ER-alpha, -beta4 and -beta5 mRNA declined, whereas, the expression of ER-beta1 mRNA was constant. In conclusion, the existence of ER-beta isoforms in human adipose tissue was demonstrated and the amount of these receptors was dependent upon fat depot localization, with much reduced expression of ER-beta1 in intra-abdominal adipose tissue compared to subcutaneous adipose tissue. These findings may indicate that estrogens could have differentiation and depot specific effects in human adipose tissue.
Mol Cell Endocrinol 2001 Aug 20
PMID:Demonstration of estrogen receptor subtypes alpha and beta in human adipose tissue: influences of adipose cell differentiation and fat depot localization. 1150 Feb 36

Previous in-vitro investigations of rat granulosa cells (GC) have shown that 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) inhibits estrogen secretion and FSH-induced aromatase activity. Although TCDD exerted no effect on basal aromatase enzyme activity, TCDD did reduce steady-state aromatase mRNA levels in GC using competitive RT-PCR. TCDD is hypothesized to induce these changes through aromatic hydrocarbon receptor(AHR)-mediated gene transcription and the modulation of the estrogen receptor (ER)-signaling pathway. In this study we show that rat GC express mRNA for AHR and the AHR nuclear translocator (ARNT) as well as biomarkers of TCDD action, CYP1A1 and CYP1B1 mRNA. Basal CYP1A1 and ER-alpha mRNAs were present only in trace amounts. By relative RT-PCR analysis we showed that CYP1A1 and CYP1B1 mRNA were induced significantly by TCDD at 6 h and that induction of CYP1A1 was maintained throughout the experiment. Using competitive RT-PCR, we observed no significant change in the mRNA levels of ARNT between control and TCDD-treated GC. Both AHR and ER-beta mRNA levels increased significantly at 48 h with TCDD compared with controls. Since ER-beta mRNA was not increased significantly until 48 h in culture, we suggest that in rat GC, the observed ER-beta mRNA increase by TCDD might be a result of CYP1A1/CYP1B1 catalyzed estrogen metabolism and aromatase mRNA inhibition via AHR.
Mol Cell Endocrinol 2001 Aug 20
PMID:2,3,7,8-Tetrachlorodibenzo-p-dioxin increases steady-state estrogen receptor-beta mRNA levels after CYP1A1 and CYP1B1 induction in rat granulosa cells in vitro. 1150 Feb 37

Phytoestrogens are a chemically diverse group of compounds made by plants that can have estrogenic effects in animals. Both tumorigenic and antitumorigenic effects have been reported. Although estrogens stimulate the growth of many breast tumors, there is a negative correlation between the incidence of breast cancer and the phytoestrogen-rich diet of certain Asian populations. To begin to resolve this paradox, we have analyzed the estrogenic properties of genistein and quercetin, two flavonoid phytoestrogens particularly abundant in soybeans. Trans-activation experiments with a transfected reporter gene for nuclear estrogen receptors (ER) show strong activation of the endogenous ER alpha by both phytoestrogens in two MCF7 human breast cancer cell lines. This is supported by the observation that the two phytoestrogens induce the down-regulation of ER alpha mRNA and protein levels. Using chimeric proteins consisting of the hormone binding domains of ER alpha and ER beta fused to the Gal4 DNA binding domain, we have established that genistein and quercetin are full estrogenic agonists of both ER isoforms. Ligand binding experiments with purified ER alpha and ER beta confirm that the two phytoestrogens are ER ligands. At concentrations that are sufficient to obtain substantial transcriptional activity, they stimulate the proliferation of two ER alpha-dependent breast cancer cell lines. At high concentrations, such as those reached with a soy-rich diet, genistein and quercetin are strong cytotoxic agents that even kill ER-independent HeLa cells. Thus, the mode of action of phytoestrogens and the balance between being risk or chemopreventive factors for breast cancer may depend on the dietary load.
Mol Pharmacol 2001 Sep
PMID:Estrogen receptor alpha mediates the proliferative but not the cytotoxic dose-dependent effects of two major phytoestrogens on human breast cancer cells. 1150 92

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