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

Studies on estrogen receptor (ER)-positive human breast cancer cell lines have shown that estrogen treatment positively modulates the expression of the genes encoding transforming growth factor-alpha (TGF alpha), 52-kDa cathepsin-D, and pS2. To determine whether these genes would be similarly regulated by estrogens in normal human mammary epithelial cells, we stably transfected immortal nontumorigenic human mammary epithelial cells with an ER-encoding expression vector. ER-negative tumor cells were also transfected for comparison. Levels of TGF alpha and 52-kDa cathepsin-D mRNA were enhanced by estrogen treatment of both ER-transfected immortal and tumorigenic cells, demonstrating that the ER by itself is sufficient to elicit estrogenic regulation of the expression of these genes. In contrast, expression of the pS2 gene was detected only in the ER-transfected tumor cells. The ER in both cell lines is capable of recognizing the pS2 promoter, however, since estrogen enhanced the activity of an introduced pS2-CAT reporter plasmid in transient expression analyses. These and other experiments with somatic cell hybrids between the immortal cells and ER+/pS2+ MCF-7 tumor cells, where pS2 gene expression is extinguished, support the conclusion that the immortal nontumorigenic cells encode gene products that block endogenous pS2 expression. These results also imply that such repressors are not active in the tumor cells.
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PMID:Induction of estrogen-regulated genes differs in immortal and tumorigenic human mammary epithelial cells expressing a recombinant estrogen receptor. 166 44

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

Thyroid hormone (T3) and estradiol (Est) modulate biological processes by binding to nuclear receptor proteins that, through interactions with specific response elements in the regulatory regions of genes, modulate gene transcription. Est stimulation of estrogen receptor (ER)-positive breast carcinoma cell growth occurs through its ability to bind to the ER and activate gene transcription. We now report that physiological concentrations of T3 significantly enhance Est stimulation of growth of a number of human breast carcinoma cell lines. The effect of T3 is specific for Est stimulation of growth and has no effect on insulin-like growth factor-I stimulation of growth. The effect of T3 on enhancing Est-mediated growth was specifically blocked by the addition of ligands inducing retinoid X receptor (RXR) homodimer receptor formation, suggesting that RXR-thyroid nuclear receptor (TR) heterodimer formation is required for the T3-mediated effect on estradiol-stimulated growth. Four thyroid nuclear receptors have been described in tissues, TR alpha 1, alpha 2, beta 1, and beta 2. Breast carcinoma cells were found to express TR beta 1 and TR alpha 2 mRNA and very low levels of TR alpha 1 mRNA. T3 did not increase ER mRNA or protein levels and did not enhance Est-mediated increases in gene transcription of a number of genes, i.e., transforming growth factor-alpha and pS2 which contain estrogen-response elements (EREs) in their regulatory regions. However, T3 enhanced Est-stimulated ERE-TK-CAT activity. Thus significant cross-talk appears to occur between the TRs and ER and T3 appears to enhance Est-mediated gene transcription.
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PMID:Thyroid hormone enhancement of estradiol stimulation of breast carcinoma proliferation. 773 50

The hypothesis explored in this article states that the control of the proliferation of estrogen target cells is regulated through two steps: the first involves a proliferative event in which estrogens cancel the inhibition exerted by a plasma-borne protein, and the second, an estrogen-induced proliferative shutoff 1. To study these estrogen-mediated events we developed a series of variants of the human breast MCF7 cell line. A first variant was selected by requiring the ancestral MCF7 cells to proliferate initially in Dulbecco's modified Eagle's phenol red-free medium supplemented with 5% charcoal-dextran stripped fetal calf serum; after 4 months, surviving cells were switched to 10% charcoal-dextran stripped human serum. Five months later, a stable cell line was characterized and cloned having a phenotype that allowed for maximal proliferation in charcoal-dextran stripped human serum-supplemented medium (CDHuS) to which no estradiol was added. Estradiol concentrations above 0.3 nM inhibited the proliferation of these cells; this effect was estrogen-specific. These cells are called E8CASS. A second variant derived from E8CASS cells was selected in 5% CDHuS supplemented with 0.3 nM estradiol; the proliferative pattern of these cells was comparable to that of the ancestral MCF7 cells. These revertant cells are called A2E8CASS. All variants and the ancestral MCF7 cells have functional estrogen receptors, as evidenced by the estrogen-induced expression of a pS2-CAT reporter gene. In conclusion, the collected data are compatible with the idea that, in MCF7 breast cells, the estradiol-mediated proliferative component can be segregated from the inhibitory effect also generated by estradiol.
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PMID:Control of cell proliferation of human breast MCF7 cells; serum and estrogen resistant variants. 789 86

In addition to stimulation of the target gene fatty-acid synthetase, the synthetic progestin R5020 strongly inhibited estradiol-induced pS2 and cathepsin D mRNA levels in MCF7 human breast cancer cells as shown by Northern blot analysis. Inhibition was half-maximal with 30 pM R5020, and the antiprogestin RU486 had only a weak effect. Two human progesterone receptor isoforms have been described; isoform A is a truncated form of isoform B and lacks the 164 N-terminal amino acids. We hypothesized that the two isoforms could have a differential capacity to transrepress estrogen-induced responses. Therefore, in MDA-MB231 cells containing no progesterone and estrogen receptors, we transiently transfected progesterone receptor expression vectors coding for form B (hPR1 or hPR0) or form A (hPR2) along with the estrogen receptor expression vector HEO. We show that R5020 inhibited estradiol-induced transcription of the pS2-CAT reporter plasmid only in cells selectively expressing isoform B. The same results were obtained when progesterone receptor isoforms were overexpressed in MCF7, Ishikawa, HeLa, or NIH-3T3 cells. Transrepression was dependent on the promoter context since the extent of inhibition by isoform B was higher when evaluated with pS2 or cathepsin D nonpalindromic estrogen-responsive element-mediated transcription than with the perfect palindromic form of the vitellogenin gene. Isoform A was inefficient regardless of the reporter construct used. Inhibition varied with the isoform ratio, and isoform B had a dominant effect, with > 70% inhibition measured in cells transfected with the same amount of both progesterone receptor isoforms. Progestin repressed only one of the two transcription activation functions of the estrogen receptor, AF-2, which corresponds to the hormone-binding domain. We conclude that differential expression of progesterone receptor isoforms could be responsible for a tissue-specific inhibition of estrogen target genes by progestins.
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PMID:Differential effect of forms A and B of human progesterone receptor on estradiol-dependent transcription. 808

To analyze the mechanisms by which estrogen receptor (ER) activity is suppressed by dominant negative mutants, we examined the role of specific ER functions and domains in transcriptional repression. We previously described three transcriptionally inactive human ER mutants (the frameshift mutant S554fs, the point mutant L540Q, and the truncated receptor ER1-530), which act as effective dominant negative mutants, inhibiting the activity of wild type ER when they are coexpressed in mammalian cells. After additional mutational modifications, the ability of the ER mutants to suppress the activity of wild type ER was analyzed in cotransfection assays of the dominant negative mutants and wild type ER and an estrogen-responsive reporter gene (2ERE-TATA-CAT or 2ERE-pS2-CAT). Eliminating the ability of the three dominant negative mutants to bind to estrogen response element (ERE) DNA (by introducing three point mutations in their DNA binding domains) dramatically reduced, but did not completely abolish, the dominant negative activity of the ER mutants. The mutation G521R, which rendered the three mutants incapable of binding estradiol, also reduced, but did not abolish, their dominant negative activity. Immunoprecipitation with monoclonal or flag antibodies followed by Western blotting demonstrated that each of the original dominant negative ER mutants formed heterodimers with wild type ER. Rendering the dominant negative mutants dimerization deficient by the mutation L507R strongly reduced, but did not eliminate, their dominant negative activity. Deletion of the N-terminal A/B domain resulted in the nearly complete loss of inhibitory activity of the three dominant negative mutants. However, these double mutants retained their ability to heterodimerize with wild type ER, suggesting that dominant negative interference also occurs at an additional step beyond dimerization. Our data indicate that competition for ERE binding, formation of inactive heterodimers, and specific transcriptional silencing can all contribute to the dominant negative phenotype and that these receptors suppress the activity of wild type ER by acting at multiple steps in the ER-response pathway.
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PMID:Analysis of mechanisms that determine dominant negative estrogen receptor effectiveness. 853 80

Polychlorinated biphenyls (PCBs) are one of the most widespread, persistent man-made products in the ecosystem giving rise to serious environmental contamination and potential hazard to health. The PCBs, in common with other compounds such as the dioxins, have been shown to exert some biological actions mediated through the aryl hydrocarbon receptor. Evidence for interaction of PCBs with other nuclear receptors has been sparse. Here we present evidence that 3,4,3',4'-tetrachlorobiphenyl (TCB) (PCB77), a PCB with high toxicity and significant bioaccumulation, can act as an estrogen with actions mediated through the estrogen receptor. Evidence is presented from multiple assay systems including 1) ligand binding to estrogen receptor in a competitive binding assay, 2) ligand ability to induce estrogen receptor binding to DNA, 3) ligand regulation of gene expression from a transfected exogenous (ERE-tk-CAT) or an endogenous (pS2) estrogen-regulated gene, 4) ligand regulation of cell growth in estrogen-dependent human breast cancer cell lines MCF7 and ZR-75-1, and 5) ligand activity in the immature mouse uterine weight bioassay in vivo. These results demonstrate that TCB (PCB77) can be included in the increasing list of environmental pollutants that possess the ability to mimic estrogen action and be termed an environmental estrogen. Since the concentrations of TCB used here (10(-9) M; 292 ng/liter) are not incompatible with levels of PCB/TCB found in human tissues, these results may have physiological relevance. Use of multiple approaches to study estrogenic action demonstrates that one congener can act as both an agonist and antagonist of estrogen action and that the magnitude of these effects can alter according to the molecular environment.
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PMID:3,4,3',4'-Tetrachlorobiphenyl acts as an estrogen in vitro and in vivo. 884 9

Redox regulation of transcription factors has recently been demonstrated for AP-1, NF-kappaB, Sp-1 and glucocorticoid receptor in vitro and in vivo. The redox state in estrogen-dependent cells possibly influences the function of estrogen receptor (ER), and the regulation of the function of ER is essential for understanding of growth and differentiation of these cells, as well as promotion and progression of estrogen-associated cancer. In this paper, we first analyzed the effects of redox state on transcriptional activity of ER in terms of pS2 mRNA expression and transfection of ERE-CAT plasmid in human breast cancer cells. Addition of H2O2 at low concentrations lowered levels of pS2 mRNA and also down-regulated ERE-CAT activity, which was recovered by transfection of thioredoxin (TRX) expression vector. Next, the transfection of antisense TRX plasmid diminished ERE-CAT activity, and the activity was recovered by co-transfected sense TRX. Furthermore, specific DNA binding activity of recombinant ER was inhibited by sulfhydryl-modifying reagents and restored by the addition of recombinant TRX protein in electrophoretic mobility shift assay. These results in vitro and in vivo revealed that the transcription activity of ER is strongly influenced by its redox state, which is reversibly modulated by endogenous redox effector protein, TRX.
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PMID:Functional modulation of estrogen receptor by redox state with reference to thioredoxin as a mediator. 932 54

Under acidic conditions, indole-3-carbinol (13C) is converted to a series of oligomeric products thought to be responsible for the biological effects of dietary 13C. Chromatographic separation of the crude acid mixture of 13C, guided by cell proliferation assay in human MCF-7 cells, resulted in the isolation of 2-(indol-3-ylmethyl)-3,3'-diindolylmethane (LTr-1) as a major antiproliferative component. LTr-1 inhibited the growth of both estrogen-dependent (MCF-7) and -independent (MDA-MB-231) breast cancer cells by approximately 60% at a non-lethal concentration of 25 microM. LTr-1 had no apparent effect on the proliferation of MCF-7 cells in the absence of estrogen. LTr-1 was a weak ligand for the estrogen receptor (ER) (IC50 70 microM) and efficiently inhibited the estradiol (E2)-induced binding of the ER to its cognate DNA responsive element. The antagonist effects of LTr-1 also were exhibited in assays of endogenous pS2 gene expression and in cells transiently transfected with an estrogen-responsive reporter construct (pERE-vit-CAT). LTr-1 activated both binding of the aryl hydrocarbon (Ah) receptor to its cognate DNA responsive element and expression of the Ah receptor-responsive gene CYP1A1. LTr-1 was a competitive inhibitor of CYP1A1-dependent ethoxyresorufin-O-deethylase (EROD) activity. In summary, these results demonstrated that LTr-1, a major in vivo product of I3C, could inhibit the proliferation of both estrogen-dependent and -independent breast tumor cells and that LTr-1 is an antagonist of estrogen receptor function and a weak agonist of Ah receptor function.
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PMID:Cytostatic and antiestrogenic effects of 2-(indol-3-ylmethyl)-3,3'-diindolylmethane, a major in vivo product of dietary indole-3-carbinol. 1044 93

Previous transfection experiments using a zinc-inducible expression vector have shown that overexpression of insulin-like growth factor II (IGFII) in MCF7 human breast cancer cells can reduce dependence on oestrogen for cell growth in vitro (DALY RJ, HARRIS WH, WANG DY, DARBRE PD. (1991) Cell Growth Differentiation 2, 457-464.). Parallel transfections now performed into another oestrogen-dependent human breast cancer cell line (ZR-75-1) yielded three clones of transfected ZR-75-1 cells that produced levels of zinc-inducible IGFII mRNA and secreted mature IGFII protein similar to those found in the transfected MCF7 cells. However, unlike in MCF7 cells, no resulting effects were found on cell growth in the ZR-75-1 clones, even though the ZR-75-1 clones possessed receptors capable of binding 125I-IGFI and showed a growth response to exogenously added IGFII. Medium conditioned by the ZR-75-1 clones could stimulate growth of untransfected MCF7 cells, indicating that the secreted IGFII protein was bioactive. Furthermore, zinc-induced IGFII was capable of increasing both pS2 mRNA levels and CAT activity from a transiently transfected AP1-CAT gene in the ZR-75-1 clones. Constitutive co-overexpression of the protein processing enzyme PC2 resulted in reduced levels of large forms of zinc-inducible IGFII, but zinc treatment still produced no effect on cell growth rate. Finally, however, constitutive co-overexpression of the type I IGF receptor (IGFIR) did result in zinc-inducible increased basal cell growth and reduced dependence on oestrogen for cell growth. These results demonstrate that while overexpression of IGFII per se was sufficient to deregulate MCF7 cell growth, the ZR-75-1 cells are limited in their proliferative response by their intrinsic receptor levels. However, although the proliferative response was limited, molecular responses (expression of pS2 and AP1-CAT) were not limited, indicating that different cellular responses can have different threshold receptor level requirements.
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PMID:Overexpression of insulin-like growth factor II (IGFII) in ZR-75-1 human breast cancer cells: higher threshold levels of receptor (IGFIR) are required for a proliferative response than for effects on specific gene expression. 1061 89


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