Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

BRCA1 mRNA and protein levels are regulated by the steroid hormones estrogen and progesterone in human breast cancer cells. BRCA1 mRNA and protein levels were significantly decreased in estrogen-depleted MCF-7 and BT20T cells and increased again after stimulation with beta-estradiol. The increase in BRCA1 expression upon stimulation with estrogen was not coordinated with the early induction of the estrogen-dependent pS2 gene but closely paralleled the delayed increase in the S-phase dependent marker cyclin A. T47-D cells deprived of steroid hormones and subsequently stimulated with progesterone also showed a delayed increase in BRCA1 mRNA expression. However, no change in BRCA1 protein was detected in these cells. When considered together, the data suggest that steroid hormones may affect BRCA1 expression indirectly by altering the proliferative status of the cells rather than acting directly on DNA sequences in the BRCA1 gene itself.
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PMID:Hormone-dependent regulation of BRCA1 in human breast cancer cells. 755 29

The cytosolic levels of pS2, an estrogen-regulated protein, were measured in 100 cases of primary breast cancer and related to several conventional histological and biochemical prognostic factors. The data were statistically analyzed on the basis of two different cutoff point for pS2: 4 and 11 ng/mg of cytosolic proteins. pS2 positivity (cutoff 11 ng/mg) was shown to be associated with small tumor size (p = 0.05), a higher differentiation grade (p = 0.007) and a smaller number of mitoses (p = 0.004), but not with menopausal status, lymph node involvement, cathepsin D levels, or proliferative activity determined by the monoclonal antibody Ki67. With the cutoff of 4 ng/mg, the statistical significance was confirmed only for the number of mitoses (p = 0.03), which was also the most closely related covariate in multivariate analysis (p = 0.008). As regards steroid receptor status, a significant difference was observed between pS2+ and pS2- cases (Chi-square = 8.9; p = 0.04, cutoff 4 ng/mg). in conclusion, pS2 positivity, being preferentially expressed in hormone-dependent cells and related to other well-known positive markers, may either indicate a good prognosis or predict responsiveness to endocrine treatment.
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PMID:Correlation between pS2 protein positivity, steroid receptor status and other prognostic factors in breast cancer. 756 Dec 44

The methylation status of the cytosines located on the 5' region of the pS2 gene have been investigated in two human breast cancer cell lines. The genomic sequencing method used is based on an oxydative deamination by NaHSO3 of the unmethylated cytosines, but not 5-methylcytosine. Data obtained indicate that in the DNA extracted from the pS2-expressing cell line, MCF7, the CpG located at the 5' flanking sequence of pS2 are unmethylated. In contrast in the non-expressing cell line, BT20, these CpG are largely methylated. However, this correlation is not observed at all CpG sites, since a significant portion of the cloned PCR fragments obtained from BT20 cells are unmethylated at specific CpG sites. These results suggest that the methylation status of only some of the CpG located at the 5' flanking sequences of pS2 might differ between expressing and nonexpressing cell lines.
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PMID:Genomic sequencing indicates a correlation between DNA hypomethylation in the 5' region of the pS2 gene and its expression in human breast cancer cell lines. 760 4

Changes in estrogen receptor (ER) expression and function may explain the development of tamoxifen resistance in breast cancer. ER expression was measured by an immunohistochemical assay, validated for use in tamoxifen-treated tumors against a biochemical enzyme immunoassay, in 72 paired biopsies taken before treatment and at progression or relapse on tamoxifen. Progesterone receptor (PgR) and pS2 gene expression were also measured immunohistochemically as an indicator of ER function. Overall the frequency of ER expression was reduced from 37 of 72 (51%) pretamoxifen to 21 of 72 (29%) at progression or relapse, with a significant reduction in the quantitative level of ER (P < 0.0001; Wilcoxon signed rank sum test). Tumors treated with primary tamoxifen that responded but then developed acquired resistance frequently remained ER positive (ER+) at relapse: 16 of 18 (89%) were ER+ pretamoxifen (75% of these expressed either PgR or pS2) and 11 of 18 (61%) were ER+ at relapse (82% continued to express PgR or pS2). In contrast, only 3 of 20 (15%) tumors that progressed on primary tamoxifen with de novo resistance were ER+ pretamoxifen, and all tumors were ER- at progression. At progression, 6 of 20 (30%) of these tumors expressed high levels of PgR (mean H-score, 98) and/or pS2 (mean, 50% cells positive), despite being ER-. In tumors that recurred during adjuvant tamoxifen therapy, including locoregional and metastatic lesions, ER expression was significantly reduced from 18 of 34 (53%) in the original primary tumor to 10 of 34 (29%) at relapse (P = 0.002). PgR expression was likewise significantly reduced in this group (P = 0.001). This study confirms that expression of a functional ER in breast cancer is a strong predictor for primary response to tamoxifen. Although ER was reduced in tamoxifen-resistant tumors overall, the development of acquired resistance was associated with maintained ER expression and function in many tumors, whereas de novo resistance remained related to lack of ER expression. Recurrence during adjuvant tamoxifen was associated with development of an ER/PgR-negative phenotype in some tumors. These data imply that separate mechanisms of resistance may occur in these different clinical subgroups.
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PMID:Changes in estrogen receptor, progesterone receptor, and pS2 expression in tamoxifen-resistant human breast cancer. 761 68

We have investigated the ability of several transcriptionally inactive estrogen receptor (ER) mutants to block endogenous ER-mediated transcription in MCF-7 human breast cancer cells. In transient transfections of MCF-7 cells, two of the mutants, a frame-shifted ER (S554fs) and a point-mutated ER (L540Q), strongly inhibit the ability of endogenous wild-type ER to activate transcription of estrogen-regulated reporter plasmids. A third mutant, ER1-530, which is missing 65 residues from its carboxy-terminus, is a weaker repressor of estradiol-stimulated transcription. When an estrogen response element (ERE)-thymidine kinase-chloramphenicol acetyltransferase reporter gene is used, S554fs, L540Q, and ER1-530 suppress the transcriptional activity of endogenous MCF-7 ER by 87%, 97%, and 62%, respectively. The magnitude of dominant negative repression is promoter specific; when an ERE-pS2-chloramphenicol acetyltransferase reporter is employed, inhibition of endogenous ER activity by equivalent amounts of S554fs, L540Q, and ER1-530 ranges from 85-97%. Dose-response studies show the S554fs mutant to be the most potent of the three ER mutants as a repressor of estrogen action in these cells. In addition, elevated levels of intracellular cAMP, achieved by the addition of 3-isobutyl-1-methylxanthine plus cholera toxin to cells, fail to compromise the effectiveness of these mutants as dominant negative ERs despite the cAMP-enhanced transcriptional activity of ER. The mutants are also powerful repressors of the agonist activity of trans-hydroxytamoxifen-stimulated ER transcription. The dominant negative activity of the three mutants is lost when the A/B domain of these receptors is deleted, implying an important role for this N-terminal region of the ER in the ability of these mutants to inhibit endogenous wild-type ER activity. All in all, the data suggest that S554fs in particular is a reasonable candidate for studies designed to use a dominant negative ER to inhibit the estrogen- and tamoxifen-stimulated growth of human breast cancer cells.
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PMID:Repression of endogenous estrogen receptor activity in MCF-7 human breast cancer cells by dominant negative estrogen receptors. 762 51

The growth-inhibitory actions of the pineal hormone, melatonin, on human breast tumor cells and the possible association between this inhibition and melatonin's down-regulation of the estrogen receptor (ER) expression were examined in the ER-positive, estrogen-responsive MCF-7 human breast tumor cell line. As previously reported, melatonin dramatically inhibits the growth of these breast tumor cells and down-regulates ER levels in these cells, suggesting that the modulation of ER may be an important mechanism by which melatonin inhibits breast cancer cell growth. In the present studies, Northern blot analysis was used to examine the expression of estrogen-regulated transcripts known to be involved in estrogen's mitogenic actions. Melatonin, at a physiologic concentration (10(-9) M), rapidly, significantly, and, in some cases, transiently elevated the steady-state mRNA levels of growth stimulatory products such as TGF alpha, c-myc, and pS2, which are normally up-regulated in response to estrogen. Conversely, melatonin decreased the expression of other factors normally up-regulated by estrogen, such as progesterone receptor and c-fos. Significant stimulation of the expression of the growth-inhibitory factor TGF beta was seen with melatonin treatment, potentially supporting the concept that melatonin's growth-inhibitory activity is mediated through the breast tumor cells' estrogen-response pathway. The early regulation of many of these products by melatonin suggests that mechanisms more rapid than the down-regulation of ER are important in melatonin's modulation of their expression. However, the long-term modulation of these transcripts (12-48 hr) may be heavily influenced by melatonin's down-regulation of ER expression. These results clearly define the need for additional in depth studies to dissect the cellular events leading to melatonin-induced growth inhibition in breast tumor cells.
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PMID:Melatonin modulation of estrogen-regulated proteins, growth factors, and proto-oncogenes in human breast cancer. 762 97

To assess the practical prognostic value of pS2, we evaluated its expression by immunohistochemistry in paraffin-embedded tissue from 942 previously untreated invasive ductal carcinomas (IDC) resected in our center between 1980 and 1986. Positive staining of tumor cells was found in 684 cases (73%), but most of the tumors contained only a small amount of positive cells. There was a negative correlation between pS2 and tumor size (p = 0.01) and histological grade (p < 0.0001), and a positive correlation between pS2 and hormonal receptor status (p < 0.001). With respect to overall survival, pS2 positivity was associated with a better prognosis for the whole group and the node-positive sub-group. However, in terms of relapse and metastasis, pS2 was not significant. Furthermore, in multivariate analysis including tumor size, nodal status, histological grade, ER status, PR status, chemotherapy, hormonal treatment, and pS2, the latter appears to be of no prognostic value.
Breast Cancer Res Treat 1995 May
PMID:Immunohistochemical determination of pS2 in invasive breast carcinomas: a study on 942 cases. 764 29

The level of oestrogen-responsive gene expression in breast tumours has been proposed as a predictor of the response of the tumour to endocrine (anti-oestrogen) therapy. We demonstrate that different oestrogen-responsive genes may differ in their responses to other hormones. pLIV-1 and pS2 are two oestrogen-regulated genes that are expressed in the MCF-7 human breast cancer cell line. We show that pLIV-1 mRNA, but not pS2 mRNA, is also induced, to a lesser extent, by progesterone, 5 alpha-dihydrotestosterone and dexamethasone. For pLIV-1, combinations of these hormones with oestradiol and with the pure anti-oestrogen, ICI 164384, indicate that the mechanism of its response to these other steroid hormones is clearly separable from its response to oestrogen. Such behaviour in breast tumours in vivo could explain the lack of absolute correlation between marker gene expression and anti-oestrogen sensitivity and between the expression of individual marker genes.
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PMID:Oestrogen-induced genes, pLIV-1 and pS2, respond divergently to other steroid hormones in MCF-7 cells. 764 56

The nuclear transcription factor Fos is inducible by both steroid hormones and peptide growth factors. It thus forms a potential point of interaction between steroid hormone- and growth factor-directed pathways and may be critical in the subversion of steroid hormone control in breast cancer. In this light, the present study has used immunocytochemistry to demonstrate in clinical primary breast cancer that Fos expression is indeed significantly associated with a failure to respond to endocrine therapy, with preliminary analysis revealing a survival advantage for those patients whose tumours lacked Fos. Sustained elevated levels of Fos expression were significantly associated with further factors, notably peptide growth factors and their receptors (e.g., EGFR, TGF alpha), as well as with the proliferation marker Ki-67, which have been linked previously to endocrine insensitivity in breast cancer. In contrast, there appeared to be a trend for Fos to be absent in those tumours expressing markers of endocrine responsiveness (e.g., oestrogen receptor [ER], and also ER-mediated markers i.e., PR, pS2 or bcl-2). Interestingly, many of these trends were maintained in ER+ patients, suggesting that Fos may be of importance in directing loss of endocrine sensitivity in ER+ disease.
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PMID:Immunocytochemical localization of Fos protein in human breast cancers and its relationship to a series of prognostic markers and response to endocrine therapy. 765 91

The synthesis of pS2 protein is induced through estrogen-dependent transcription of the pS2 gene. The presence of the pS2 protein in breast cancer is thought to be as valuable as receptor status, or even more so, in predicting the response to hormonal therapy. Furthermore, pS2 appears to be a prognostic factor for primary breast cancer. In 162 cases of primary breast cancer, pS2 was tested by immunohistochemical procedures on formalin-fixed and paraffin-embedded tissues. Staining was evaluated semi-quantitatively using an immunoreactive score (IRS). The concentrations of pS2 in tumor cytosol were determined using an immunoradiometric assay. Positive staining for pS2 (IRS > or = 2) was seen in 27% of the tumors. Comparison of immunohistochemical and biochemical detection (26% of tumors had pS2 cytosol concentrations above the cut-off value of 26 ng/mg cell protein) revealed an 81% concordance rate (r = 0.76; P < 0.0001). Univariate analysis showed no significant correlation of immunohistochemical pS2 detection and age or menopausal status of patients, tumor size, tumor grade or nodal status. However, the immunohistochemical pS2 status correlated significantly with the immunohistochemical detection of the estrogen (ER; P < 0.001) and progesterone receptor status (PR; P < 0.0001). pS2-positive tumors were ER-positive in 66% of cases and PR-positive in 73%; 89% of pS2-positive tumors were positive for ER and/or PR. The incidence of immunohistochemical pS2 detection was 41% in the group of steroid receptor positive carcinomas (ER- and/or PR-positive) in contrast to 7% in steroid receptor negative tumors (ER- and PR-negative).
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PMID:[Immunohistochemical detection of pS2 protein in paraffin sections of breast carcinoma tissue. Comparison with results of an immunoradiometry assay]. 766 10


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