Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04155 (pS2)
 1,234 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Estradiol levels in breast tumors from post-menopausal women are similar to those in pre-menopausal women even though plasma estrogens are much lower after the menopause. In situ estrogen production by the tumor provides a potential means of maintaining high estradiol levels in post-menopausal breast cancer tissue. The estrone sulfatase pathway has been proposed as the mediator of in situ estrogen production. A number of studies suggest that estrone sulfate may be converted into estradiol in breast tumors via the catalytic activity of estrone sulfatase and 17 beta-hydroxysteroid dehydrogenase. However, these studies used pharmacologic levels of estrogen sulfates and have not shown that physiologic levels can support biologic effects. Accordingly, the present study examined the dose relationship of estrone sulfate to a variety of biologic endpoints in MCF-7 breast cancer cells in culture. These cells converted physiologic concentrations of estrone sulfate to quantities of free estradiol capable of stimulating cell growth. Under these conditions, the nuclear steroids observed were free estrone and estradiol. Increase in cell number after 6 days of exposure to steroid required 100 nM estrone sulfate. However, S-phase, a more sensitive measure of cell proliferation, was stimulated by 0.1 nM estrone sulfate, a clearly physiologic concentration. Stimulation of estrogen-dependent protein markers such as pS2 and progesterone receptor required much higher concentrations of estrone sulfate. These effects were mediated through the estrogen receptor since the pure anti-estrogen, ICI 164384, blocked all effects produced by estrone sulfate. While it has been suggested that anti-estrogens may partly exert their effects by inhibition of sulfatase and 17 beta-hydroxysteroid dehydrogenase, this did not occur under our experimental conditions. These data provide evidence of the relevance of the estrone sulfatase pathway since biologic effects can be demonstrated in response to physiologic concentrations of estrone sulfate.
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PMID:Estrone sulfate promotes human breast cancer cell replication and nuclear uptake of estradiol in MCF-7 cell cultures. 847 38

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

Polyamines have been proposed as specific mediators of estrogen action in breast cancer cells, but their exact role in this process is still controversial. As estrogens cooperatively interact with peptide growth factors in several hormonal responses, the involvement of polyamines in the synergistic effect of 17 beta-estradiol (E2) and insulin or insulin-like-growth factor I (IGF-I) on cell growth, polyamine pools, specific gene induction, and cell cycle progression was examined in estrogen-responsive MCF-7 and ZR-75-1 human breast cancer cells. Spermidine depletion induced by the ornithine decarboxylase inhibitor, alpha-difluoromethylornithine (DFMO), resulted in complete cytostasis and loss of mitogenic response to either E2 or insulin (or IGF-I). In contrast, a steroidal antiestrogen blocked the mitogenic effect of E2, but only partly interfered with the synergistic stimulation of estrogen action by insulin. Whereas antiestrogen-resistant growth in insulin-treated cells was halted by DFMO, the antiestrogen did not further inhibit growth upon prior polyamine depletion. E2 and either IGF-I or insulin induced early increases in putrescine and spermidine, but not spermine, contents in both MCF-7 and ZR-75-1 cells. Moreover, spermidine depletion and decarboxylated S-adenosylmethionine accumulation induced by DFMO required prior mitogenic stimulation by E2 and/or IGF-I. The antiestrogen alone had only a limited effect on polyamine and nucleoside pools. DFMO did not interfere with the coordinate induction of the estrogen- and growth factor-inducible pS2 messenger ribonucleic acid by E2 and insulin even after a 5-day treatment with the drug. On the other hand, DFMO depressed the cycling fraction of E2/IGF-I-stimulated MCF-7 cell population far more dramatically than the antiestrogen and to less than that noted in mitogen-deprived cells. However, in ZR-75-1 cells, which have a much lower spermidine/spermine ratio than MCF-7 cells, specific inhibition of spermine synthase selectively antagonized the effect of E2 compared with that of insulin. These data indicate that spermidine has a permissive role for macromolecular synthesis and cell cycle traverse, but does not qualify as a limiting factor in estrogen receptor-mediated events per se in breast cancer cells. Moreover, polyamine depletion is an efficient complementary strategy to block the mitogenic action of peptide growth factors, which is only partly antagonized by antiestrogens.
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PMID:Permissive role of polyamines in the cooperative action of estrogens and insulin or insulin-like growth factor I on human breast cancer cell growth. 855 Jul 37

Multiple sections of 40 consecutive cases with invasive ductal carcinoma of the breast, all of which bad wide intraductal cancerous extension, were examined by immunohistochemical analysis for evaluation of hormone dependency in several areas of breast cancer tissues. In this study, we examined the expression of pS2 protein in the central invasive area (CIV), central intraductal cancerous area (CDC) and forefront intraductal cancerous area (FDC). pS2 staining was positive in 52.5% (21/40) of CIV and a significant correlation was found between pS2 expression in CIV and the estrogen receptor status (ER). pS2 staining was positive in 77.5% of CDC and 85.0% of FDC, respectively. A majority (68.4%) of the cases that were negative pS2 in CIV were positive for pS2 in FDC. Moreover, the cases with noncomedo intraductal carcinoma in premenopausal status showed a higher positivity of pS2 expression in FDC than the cases with comedo-carcinoma, though the number of cases of comedo-carcinoma was limited. These findings suggest that endocrine therapy may be useful after breast conserving treatment regardless of the ER status of the primary tumor.
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PMID:High positive rate of pS2 expression in forefront intraductal cancerous area in breast cancer. 856 93

The study of several human breast cancer cell lines containing oestrogen receptors has allowed characterization of a number of oestrogen-induced proteins (e.g. progesterone receptor, cathepsin D, pS2, Hsp27, c-Myc). In primary tumours these markers have different prognostic significance for predicting whether the tumour will be hormone responsive (e.g. pS2, progesterone receptor) and whether it will metastasize (e.g. cathepsin D). The mechanism of regulation of gene expression by oestrogens and anti-oestrogens in breast cancer is complex and varies according to the nature of both the gene and the cell in which it is transcribed. Our laboratory has identified the sequences mediating oestrogen activity in the proximal region of cathepsin D, including a non-consensus oestrogen-responsive element located at -260 which acts in synergy with other regulatory elements. In addition to the classical effect of oestrogen receptor in stimulating transcription of genes controlled by the oestrogen-responsive element, we found that estrogen receptor is able to modulate transcription of AP-1-responsive genes without interacting directly with DNA. Cross-talk between oestrogen receptor and members of the Fos/Jun family via protein-protein interactions may explain how anti-oestrogens inhibit the mitogenic effect of growth factors in the apparent absence of oestrogens and why tamoxifen is able to stimulate cathepsin D gene expression and induce apoptosis in certain oestrogen receptor-positive breast cancer cells. The nature and degree of this cross-talk appears to vary according to the gene, the cell type and the type of oestrogen receptor ligand involved. Studies of oestrogen-regulated genes are not only useful for classifying breast cancers according to their ability to metastasize and respond to therapies, but also should lead to new therapeutic approaches for hormone-dependent and hormone-resistant cancers.
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PMID:Oestrogen- and anti-oestrogen-regulated genes in human breast cancer. 858 2

Estrogens are defined by their ability to induce the proliferation of cells of the female genital tract. The wide chemical diversity of estrogenic compounds precludes an accurate prediction of estrogenic activity on the basis of chemical structure. Rodent bioassays are not suited for the large-scale screening of chemicals before their release into the environment because of their cost, complexity, and ethical concerns. The E-SCREEN assay was developed to assess the estrogenicity of environmental chemicals using the proliferative effect of estrogens on their target cells as an end point. This quantitative assay compares the cell number achieved by similar inocula of MCF-7 cells in the absence of estrogens (negative control) and in the presence of 17 beta-estradiol (positive control) and a range of concentrations of chemicals suspected to be estrogenic. Among the compounds tested, several "new" estrogens were found; alkylphenols, phthalates, some PCB congeners and hydroxylated PCBs, and the insecticides dieldrin, endosulfan, and toxaphene were estrogenic by the E-SCREEN assay. In addition, these compounds competed with estradiol for binding to the estrogen receptor and increased the levels of progesterone receptor and pS2 in MCF-7 cells, as expected from estrogen mimics. Recombinant human growth factors (bFGF, EGF, IGF-1) and insulin did not increase in cell yields. The aims of the work summarized in this paper were a) to validate the E-SCREEN assay; b) to screen a variety of chemicals present in the environment to identify those that may be causing reproductive effects in wildlife and humans; c) to assess whether environmental estrogens may act cumulatively; and finally d) to discuss the reliability of this and other assays to screen chemicals for their estrogenicity before they are released into the environment.
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PMID:The E-SCREEN assay as a tool to identify estrogens: an update on estrogenic environmental pollutants. 859 56

The estrogen receptor gene gives rise to variant mRNAs, generated by alternative mRNA splicing, as well as the full-length mRNA containing eight coding exons. It has been postulated that one of these, the exon 5 variant, may be important in the development of hormone-independent and anti-estrogen-resistant breast cancer since it has the potential to encode a truncated receptor that retains the N-terminal activation domain AF-1, but lacks the hormone-binding domain. We have expressed the variant using an inducible promoter in estrogen receptor-positive MCF-7 cells and analyzed the effect of the variant protein on gene expression and cell growth. Inducible expression was validated using a specific antiserum that recognized a novel epitope on the exon 5 variant. The variant was able to stimulate transcription of a reporter gene in transiently transfected chicken embryo fibroblasts in the absence of hormone but showed weak constitutive activity when it was stably expressed in MCF-7 cells. The variant had no effect on the expression of the estrogen target genes, pS2, and the progesterone receptor. Finally, we analyzed whether the proliferation of MCF-7 cells was altered by the expression of the exon 5 variant and found that the stimulatory effects of estrogen and growth inhibitory effects of tamoxifen and ICI 182780 were unchanged. We therefore conclude that expression of the variant alone is not sufficient to give rise to hormone independence or tamoxifen resistance of breast cancers.
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PMID:Effects of an exon 5 variant of the estrogen receptor in MCF-7 breast cancer cells. 860 2

Genistein, a component of soy products, may play a role in the prevention of breast and prostate cancer. However, little is known about the molecular mechanisms involved. In the present study, we examined the effects of genistein on the estrogen receptor positive human breast cancer cell line MCF-7. We observed that genistein stimulated estrogen-responsive pS2 mRNA expression at concentrations as low as 10(-8) M and these effects can be inhibited by tamoxifen. We also showed that genistein competed with [3H]estradiol binding to the estrogen receptor with 50% inhibition at 5 x 10(-7) M. Thus, the estrogenic effect of genistein would appear to be a result of an interaction with the estrogen receptor. The effect of genistein on growth of MCF-7 cells was also examined. Genistein produced a concentration-dependent effect on the growth of MCF-7 cells. At lower concentrations (10(-8)-10(-6) M) genistein stimulated growth, but at higher concentrations (> 10(-5) M) genistein inhibited growth. The effects of genistein on growth at lower concentrations appeared to be via the estrogen receptor pathway, while the effects at higher concentrations were independent of the estrogen receptor. We also found that genistein, though estrogenic, can interfere with the effects of estradiol. In addition, prolonged exposure to genistein resulted in a decrease in estrogen receptor mRNA level as well as a decreased response to stimulation by estradiol.
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PMID:Molecular effects of genistein on estrogen receptor mediated pathways. 862 49

Synthetic estrogens possessing hydroxyalkyl side chains at the C-2 position of the A-ring were designed in order to further elucidate the structural and electronic requirements of the estrogen receptor to A-ring modifications. Furthermore, these compounds were envisaged as being stable analogs of the estradiol metabolite 2-hydroxyestradiol. The homologous series of 2-(hydroxyalkyl)estradiols 1-3 has been prepared by chain extension of 2-formylestradiol 6, which, in turn, was prepared via ortholithiation of estradiol. The substituted estradiols 1-3 were assayed for their abilities to bind to the estrogen receptor in MCF-7 cells and induce estrogen-responsive gene expression. The estradiol homologs exhibited significantly weaker affinity than estradiol for the MCF-7 cell estrogen receptor, with relative binding affinities (estradiol = 100) ranging from 1.11 for 2-(hydroxymethyl)estradiol (1) to 0.073 for 2-(hydroxypropyl)estradiol (3). The relative activities for mRNA induction of the pS2 gene by the estradiol homologs closely parallel the relative binding affinities for the estrogen receptor in MCF-7 cells. 2-(Hydroxymethyl)-estradiol exhibited similar estrogen receptor affinity and pS2 gene induction to the catechol estrogen 2-hydroxyestradiol and may prove useful in examination of the further biological effects of 2-hydroxyestrogen homologs.
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PMID:2-(Hydroxyalkyl)estradiols: synthesis and biological evaluation. 862 15

Tamoxifen, although widely used in the treatment of estrogen-dependent tumors, is a partial estrogen agonist producing undesirable effects in breast cancer patients. ICI 182,780 a steroidal antiestrogen displays pure antagonist activity which is due to its ability to prevent dimerization of the estrogen receptor (ER). Our previous studies have shown that 1,1-dichloro-cis-2,3-diaryl cyclopropane (Analog II), a diarylcyclopropyl compound is devoid of estrogenic activity, has a weak binding affinity for the estrogen receptor in the mouse uterine tissue and inhibits the growth of breast cancer cells in culture. These findings suggest that Analog II may not inhibit tumor cell growth at the cellular level by an ER-mediated mechanism of action. Since these three antiestrogens appear to have different mechanisms of antiestrogenic activity, the purpose of this study was to compare the influence of the three antiestrogens on estradiol-induced expression of pS2 and cathepsin D (cath-D). These genes are known to be primarily under the influence of estrogen in ER positive MCF-7 human breast cancer cells. The results of this study demonstrate different mechanisms of regulation of the cath-D and pS2 genes by antiestrogens in MCF-7 cells. This study indicates that ICI 182,780 is a pure antagonist at the levels of gene regulation and cell proliferation. The relative order of inhibitory action was found to be ICI 182,780 > tamoxifen > Analog II.
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PMID:The influence of antiestrogens on pS2 and cathepsin D mRNA induction in MCF-7 breast cancer cells. 868 38


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