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Query: UNIPROT:P04155 (pS2)
 1,234 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Stimulation of transcription of reporter genes by the progesterone receptor (PR) was inhibited in transfected HeLa cells by co-expressing the estrogen receptor (ER) in an ER-dose- and estrogen-dependent manner. Both the N-terminal A/B region and the hormone binding domain of ER were involved in this inhibition, which was antagonized by antiestrogens and did not appear to involve direct interaction between ER and either reporter gene or PR. ER expression also inhibited activation by the glucocorticoid receptor (GR), and both PR and GR expression inhibited activation by ER, albeit to a lower extent. Similar transcriptional interference was observed between the endogenous PR and ER present in T47D and MCF-7 breast cancer cells transfected with an ER reporter gene. Moreover, transcription of the resident estrogen-induced pS2 gene was partially inhibited by exposing MCF-7 cells to progestins or glucocorticoids. We propose that these observations reflect competition for a functionally limiting transcription factor(s).
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PMID:Steroid hormone receptors compete for factors that mediate their enhancer function. 272 Jul 78

The estrogenic and antiestrogenic activities of tamoxifen and 4-hydroxytamoxifen have been measured on the expression of two estrogen-regulated RNAs (pNR-1 and pNR-2) in the MCF7 human breast cancer cell line cultured in phenol red-free medium. The two antiestrogens increased the level of the pNR-1 RNA to about 80% of the estradiol-induced level, and the induction by estradiol was not significantly antagonized by either antiestrogen. In contrast, the pNR-2 mRNA was only increased to about 10% of the estradiol-induced level, and its induction by estradiol was antagonized by both tamoxifen and 4-hydroxytamoxifen. Thus, the two RNAs respond in dramatically different ways to these antiestrogens. 4-Hydroxytamoxifen and estradiol have similar affinities for the estrogen receptor; however, the induction of both RNAs by 4-hydroxytamoxifen required a 10-fold higher concentration than estradiol for maximum agonist activity, and a 500-fold molar excess was required to antagonize the induction by estradiol. Tamoxifen has a 20-100-fold lower affinity than estradiol for the estrogen receptor. A 200-fold higher concentration was required for maximum agonist activity and a 10,000-fold molar excess to antagonize the induction by estradiol. These results emphasize the complexity of antiestrogen action in human breast cancer cells.
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PMID:Effects of tamoxifen and 4-hydroxytamoxifen on the pNR-1 and pNR-2 estrogen-regulated RNAs in human breast cancer cells. 282 72

The human pS2 gene is specifically expressed under estrogen transcriptional control in a subclass of estrogen receptor-containing human breast cancer cells. The pS2 gene encodes an 84-amino acid protein that is secreted after signal peptide cleavage. The distribution of pS2 protein in normal human tissues was studied with antibodies to pS2; pS2 was specifically expressed and secreted by mucosa cells of the normal stomach antrum and body of both female and male individuals. Moreover, no estrogen receptor could be detected in these cells, indicating that pS2 gene expression is estrogen-independent in the stomach. The function of the pS2 protein in the gastrointestinal tract is unknown. However, the pS2 protein is similar in sequence to a porcine pancreatic protein that has been shown to inhibit gastrointestinal motility and gastric secretion.
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PMID:Breast cancer-associated pS2 protein: synthesis and secretion by normal stomach mucosa. 304 93

The expression of genes which may be involved in the regulation of human mammary epithelial cell growth [transforming growth factors alpha and beta] and tumorigenesis [c-myc, erbB2, epidermal growth factor receptor (EGFR), Ha-ras, pS2] has been compared in similarly cultured normal cell strains and tumor cell lines. We have found that the normal breast cells produce high levels of EGFR mRNA, which are translated into nearly 10(5) low affinity epidermal growth factor-binding molecules/cell. In the estrogen receptor-negative lines examined, the EGFR gene was expressed at levels comparable to those in the normal cells. In contrast, EGFR and transforming growth factor alpha mRNAs were reduced in estrogen receptor-positive tumor lines compared to estrogen receptor-negative lines and normal cells. Steady state mRNA levels for transforming growth factor beta, erbB2, c-myc, and Ha-ras in the normal cells were greater than or comparable to those in all of the breast tumor lines. Furthermore, in the absence of gene amplification, only one of the genes examined (i.e., pS2) was overexpressed in a subset of the tumor cells compared to their normal counterparts. Several reports by other investigators have described overexpression of some of these genes in breast biopsies and in tumor lines in studies lacking normal controls. Thus, our results, in which the same genes were not overexpressed compared to normal cells unless amplified, underscore the importance of including appropriate normal controls in studies aimed at defining aberrant patterns of gene expression in tumor cells.
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PMID:Expression of growth factors and oncogenes in normal and tumor-derived human mammary epithelial cells. 319 80

The expression of the pS2 gene, which is induced by estrogen in the breast cancer cell line MCF-7, has been investigated in breast cancers by using pS2 mRNA determination in tumor specimens and immunocytochemistry to identify pS2 protein in paraffin-embedded sections. Using these assays we show that determination of pS2 gene expression allows the definition of subclasses of estrogen-receptor-containing breast cancers that may be used to more precisely identify estrogen-dependent tumors. Tumor specimens have also been analyzed for the presence of mRNAs for the estrogen receptor and for the ERBB2 oncogene. No evidence for the presence of truncated forms of estrogen-receptor mRNA has been found, and overexpression of the ERBB2 oncogene did not correlate with the steroid receptor status or pS2 gene expression.
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PMID:Specific expression of the pS2 gene in subclasses of breast cancers in comparison with expression of the estrogen and progesterone receptors and the oncogene ERBB2. 332 Oct 71

Two domains of the human estrogen receptor, responsible for hormone binding (region E) and tight nuclear binding (region C), are essential for the receptor to activate efficiently the transcription of estrogen-responsive genes. Region D, which joins the DNA- and hormone-binding domains, can be altered without affecting activation. Deletion of the N-terminal domain (region A/B) has no effect on activation of a reporter gene containing a vitellogenin estrogen-responsive element (ERE) and the HSV-tk promoter, whereas it severely impairs activation of the human pS2 gene promoter. Deletion of most or all of the hormone-binding domain leads to only about 5% constitutive transcriptional activity, yet these mutants appear to bind efficiently to an ERE in vivo. Apparently, region C recognizes the ERE of target genes, and the hormone-binding domain plays an essential role for efficient activation of transcription.
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PMID:Functional domains of the human estrogen receptor. 369 Jun 65

Peroxisome proliferator-activated receptors (PPARs) and retinoid X receptors (RXRs) are nuclear hormone receptors that are activated by fatty acids and 9-cis-retinoic acid, respectively. PPARs and RXRs form heterodimers that activate transcription by binding to PPAR response elements (PPREs) in the promoter of target genes. The PPREs described thus far consist of a direct tandem repeat of the AGGTCA core element with one intervening nucleotide. We show here that the vitellogenin A2 estrogen response element (ERE) can also function as a PPRE and is bound by a PPAR/RXR heterodimer. Although this heterodimer can bind to several other ERE-related palindromic response elements containing AGGTCA half-sites, only the ERE is able to confer transactivation of test reporter plasmids, when the ERE is placed either close to or at a distance from the transcription initiation site. Examination of natural ERE-containing promoters, including the pS2, very-low-density apolipoprotein II and vitellogenin A2 genes, revealed considerable differences in the binding of PPAR/RXR heterodimers to these EREs. In their natural promoter context, these EREs did not allow transcriptional activation by PPARs/RXRs. Analysis of this lack of stimulation of the vitellogenin A2 promoter demonstrated that PPARs/RXRs bind to the ERE but cannot transactivate due to a nonpermissive promoter structure. As a consequence, PPARs/RXRs inhibit transactivation by the estrogen receptor through competition for ERE binding. This is the first example of signaling cross-talk between PPAR/RXR and estrogen receptor.
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PMID:Signaling cross-talk between peroxisome proliferator-activated receptor/retinoid X receptor and estrogen receptor through estrogen response elements. 747 63

Of the steroid hormone receptor family members, the estrogen receptor (ER) is notable in containing a sizable (42-amino acid) C-terminal region, denoted domain F. This F region differs from its adjacent hormone-binding domain, domain E, in that it is not well conserved among different vertebrate ER species, and its role in the biological activity of the ER is not well defined. We report an important role for the F domain of the ER in modulating the magnitude of gene transcription by estrogen and antiestrogen, and in determining the effectiveness of antiestrogens in suppressing estrogen-stimulated gene transcription. Using transient transfections, we have examined, in several cell types, the transcriptional activity of the full-length wild type human ER and ER lacking the carboxy-terminal F domain (delta F ER, containing amino acids 1-554) or ER altered in the F domain by point mutations. In some cells, namely Chinese hamster ovary (CHO) cells and MDA-MB-231 human breast cancer cells expressing wild type ER or delta F ER, estradiol (E2) stimulates equally transcription of several estrogen-responsive promoter-reporter gene constructs [estrogen ca-18119 element, (ERE)2-TATA-CAT, (ERE)2-pS2-CAT, (ERE)2-progesterone receptor(distal)-CAT]; however, the antiestrogens trans-hydroxytamoxifen and ICI 164,384, which stimulate transcription of some of these reporter constructs with the wild type ER, were unable to stimulate transcription with delta F ER. In addition, these antiestrogens were more effective antagonists of E2-stimulated transcription by delta F ER than by wild type ER. By contrast, in HeLa human cervical cancer cells and 3T3 mouse fibroblast cells, the delta F ER exposed to E2 is much less effective than wild type ER in stimulating transcription, and antiestrogens were less potent in suppressing E2-stimulated transcription by the delta F ER. These differences in response of the delta F and wild type ER to estrogen or antiestrogen do not appear to be due to a change in receptor expression level, binding affinity for ligands, or binding to estrogen response element DNA. Our data support the supposition that the conformation of the receptor-ligand complex is different with estrogen vs. antiestrogen and with wild type vs. delta F ER, such that its potential for interaction with protein cofactors or transcription factors is different and is markedly influenced by cell context. Thus, the F domain of the ER has a specific modulatory function that affects the agonist/antagonist effectiveness of antiestrogens and the transcriptional activity of the liganded ER in cells.
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PMID:The carboxy-terminal F domain of the human estrogen receptor: role in the transcriptional activity of the receptor and the effectiveness of antiestrogens as estrogen antagonists. 747 65

Treatment of immature 21-day-old female Sprague-Dawley rats with 17 beta-estradiol (E2) (0.5 microgram/rat) caused a significant increase in uterine wet weight, DNA synthesis, progesterone receptor (PR) binding, and peroxidase activity. At doses as high as 40 mg/rat, the bioflavonoid naringenin did not cause a significant increase in any of these E2-induced responses. However, in rats cotreated with E2 (0.5 microgram/rat) plus naringenin (30 mg/rat); there was a significant decrease in E2-induced uterine wet weight, DNA synthesis, PR binding, and peroxidase activity, indicating that naringenin exhibits antiestrogenic activity in the immature rodent uterus. The binding of uterine nuclear extracts to a 32P-labeled estrogen responsive element (ERE) or progesterone responsive element (PRE) was determined using gel electrophoretic band shift assays. Incubation of [32P]ERE with uterine nuclear extracts from rats treated with naringenin or E2 resulted in the formation of estrogen receptor (ER):ERE complexes; a higher mobility complex was prominent in the extracts from E2-treated rats, whereas a lower mobility complex was observed using nuclear extracts from naringenin-treated animals. There was a significant decrease in the intensity of the E2-induced complex using nuclear extracts from rats treated with E2 plus naringenin. In contrast, transformed cytosol from control rats gave an intense ER:ERE complex, whereas the intensity of the band was decreased markedly using transformed uterine cytosol from treated rats. Formation of a PR:PRE complex was also determined using transformed uterine cytosol. Cytosol from E2-treated rats gave an intense retarded band, whereas only weak bands were observed using cytosols from DMSO- (solvent), naringenin-, or naringenin plus E2-treated cells. The results of in vitro studies showed that 1 nM E2 increased (3- to 4-fold) the growth of MCF-7 human breast cancer cells, whereas 1-1000 nM naringenin had no effect on cell proliferation. In cells cotreated with 1 nM E2 plus 1000 nM naringenin, there was a significant decrease in E2-induced cell growth. In MCF-7 cells transiently transfected with a pS2 promoter-regulated luciferase reporter gene, naringenin exhibited weak estrogenic activity. In cells cotreated with 0.1 or 1.0 microM naringenin plus 1 nM E2, naringenin inhibited E2-induced luciferase activity. The results of these studies confirmed that naringenin is a weak estrogen that also exhibits partial antiestrogenic activity in the female rat uterus and MCF-7 human breast cancer cells.
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PMID:Naringenin: a weakly estrogenic bioflavonoid that exhibits antiestrogenic activity. 750

We find that stimulation of the protein kinase A (PKA) signaling pathway in MCF-7 human breast cancer cells changes the agonist/antagonist activity of tamoxifen and related antiestrogens; it activates or enhances their estrogen agonist activity and reduces their ability to antagonize the effects of estradiol (E2). In MCF-7 human breast cancer cells which contain high levels of endogenous estrogen receptor (ER), the antiestrogen trans-hydroxy-tamoxifen (TOT) fails to stimulate transcription of the estrogen-responsive promoter-reporter constructs estrogen response element (ERE)-TATA-chloramphenicol acetyl transferase (CAT), (ERE)2-TATA-CAT, and pS2-CAT. However, when cells are treated with isobutyl methylxanthine plus cholera toxin (which increases intracellular cAMP approximately 10-fold), or with 8-bromo-cAMP, or are transfected with expression vectors for the PKA catalytic subunits, the transcriptional activity of the antiestrogen-ER complex is now increased, to levels 20-75% that of E2, and TOT also becomes much less effective in antagonizing the stimulation of transcription by E2. Although this alteration in the agonist and antagonist activity of TOT is observed with three promoter-reporter constructs, containing a simple TATA promoter or a more complex, pS2 promoter, elevation of cAMP did not enhance the transcription by either TOT or E2 of the reporter plasmid ERE-thymidine kinase-CAT. Thus, this phenomenon is promoter specific. The maximal stimulatory effects of isobutylmethylxanthine plus cholera toxin and PKA catalytic subunits on TOT and E2 transcriptional enhancement were not additive, consistent with the hypothesis that they are both acting via stimulation of the same signal transduction pathway.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alteration in the agonist/antagonist balance of antiestrogens by activation of protein kinase A signaling pathways in breast cancer cells: antiestrogen selectivity and promoter dependence. 751 3


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