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)

Our laboratory has reported previously the cloning of a complementary DNA termed pS2, corresponding to a messenger RNA (mRNA) whose synthesis is induced by estrogen in the human breast cancer cells MCF-7. Examination of the possible open reading frames of this complementary DNA has led to the prediction that the pS2 protein could be a secreted polypeptide of either 58 or 63 amino acids in length. Using a rabbit antiserum prepared against a synthetic peptide corresponding to the last 31 amino acids of the putative protein, we show that a protein with the expected migration during sodium dodecyl sulfate gel electrophoresis can indeed be immunoprecipitated from either the culture medium of MCF-7 cells grown in the presence of labeled amino acids or the in vitro translation products of MCF-7 poly(A) RNA enriched in pS2 mRNA. Furthermore, in vivo and in vitro differential amino acid labeling allows us to conclude that the mature pS2 protein is probably secreted as a 58 amino acid long peptide. Finally, we show that pS2 protein synthesis is induced in MCF-7 cells by estradiol and phenol red, but not by the antiestrogen tamoxifen, in keeping with our previous results demonstrating estrogen induction of pS2 mRNA synthesis.
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PMID:Characterization of the estrogen-induced pS2 protein secreted by the human breast cancer cell line MCF-7. 366 45

The human pS2 gene, whose expression is restricted to breast cancer cells, and whose transcription is induced by oestrogen in the human breast cancer cell line MCF-7, has been cloned from both placental and MCF-7 cell DNA. The exon-intron organization has been established by electron microscopy using genomic DNA-cDNA or -mRNA hybrid duplexes and by sequencing the exons and exon-intron junctions. The overall organization within and around the pS2 gene is the same in placental and MCF-7 cell DNA and the exonic sequences are identical to those previously determined from the cDNA. The 5'-flanking region of the pS2 gene is also identical (with the exception of two base transitions) in the two tissues. Thus no gene rearrangement nor sequence modification has occurred in the pS2 gene of the malignant and polyploid MCF-7 cells. A TATA-box, a CAAT-box and a GC-rich motif are present in the 5'-flanking region of the pS2 gene, but the latter motif is unusually located between the TATA-box and the capsite. No significant homology could be detected between the 5' flanking sequences of the pS2 gene and those of other oestrogen-responsive genes from different species.
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PMID:Structure of the human oestrogen-responsive gene pS2. 382 34

Two variants of the human estrogen-responsive breast cancer cell line MCF-7, were utilized to study the expression of an estrogen-induced gene, pS2, and an estrogen-induced Mr 52,000 protein. One variant cell line, I13, is growth inhibited after chronic exposure to estrogen. Both the pS2 gene product and the Mr 52,000 protein were produced at maximal levels at a time when I13 growth was inhibited by estrogen. The variant cell line, LY2, selected for its resistance to the growth-inhibitory effects of the antiestrogen, LY117018, grew normally in the presence of this drug, although both pS2 expression and Mr 52,000 protein production were inhibited. These results confirm that the pS2 gene and Mr 52,000 protein are estrogen-regulated elements, but the lack of correlation between their activities and variant cell growth suggests that they are not major autocrine growth-stimulatory agents.
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PMID:Use of two MCF-7 cell variants to evaluate the growth regulatory potential of estrogen-induced products. 394 73

The growth of MCF-7 cells was arrested by 24 h of isoleucine deprivation. Following replenishment of the medium, the incorporation of uridine and thymidine into trichloroacetic acid-precipitable material began to increase slowly and gradually rose to the level of cycling cells. The addition of 5 X 10(-9) M estradiol to growth-arrested cells dramatically shortened the time of onset of macromolecular synthesis and increased the overall amount of precursor incorporation 2- to 4-fold over the level obtained by arrested control cells. The increase in uridine incorporation preceded the increase in thymidine incorporation by 6 h. Inhibition of protein synthesis with cycloheximide blocked the recovery of macromolecular synthesis in both control and estrogen-treated cells. Actinomycin D was ineffective in blocking the estrogen-stimulated recovery of macromolecular synthesis at concentrations known to inhibit pre-rRNA synthesis (10(-8) M). At higher concentrations, uridine and thymidine incorporation were inhibited in a dose-dependent manner. Inhibition of RNA polymerase II activity with alpha-amanitin similarly blocked both the recovery of the cells from isoleucine starvation and the potentiation of this by estradiol. Dihydrofolate reductase and thymidine kinase activities are both stimulated by estradiol in MCF-7 cells. In cycling cells, estrogen stimulates a 2-fold increase in their messenger RNAs (mRNAs) within 24 h. The level of dihydrofolate reductase mRNA is unaffected by isoleucine starvation, and estrogen caused no change in dihydrofolate reductase mRNA levels over a 24-h period following reversal of growth arrest. Similar results were observed for the 600-nucleotide pS2 mRNA that has been identified as an estrogen-induced RNA in MCF-7 cells. In contrast, thymidine kinase mRNA was found to be increased by estrogen at 24 h, but not at 12 h, following reversal of growth arrest. This increase correlates with increases in thymidine, but not uridine incorporation. These data indicate that the estrogen-stimulated increase in thymidine incorporation following release from growth arrest is dependent on new RNA synthesis. However, the hormone did not increase the levels of three estrogen-regulated mRNAs coordinately with the increases observed in uridine incorporation.
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PMID:Relationship between the expression of estrogen-regulated genes and estrogen-stimulated proliferation of MCF-7 mammary tumor cells. 398 99

We present the complete sequence of an mRNA which is induced by estrogen in the human breast cancer cell line MCF-7 [pS2 mRNA, Masiakowski et al., Nucleic Acids Res. 10, 7895-7903 (1982)]. Primer extension and cloning of double-stranded cDNA (ds-cDNA) into a vector designed to make full-length cDNA were used to determine the sequence of the fifteen 5'-terminal nucleotides which were not present in the original pS2 ds-cDNA clone. The mRNA sequence has a major open reading frame encoding 84 amino-acids, flanked by a 40 nucleotide 5'-untranslated region and a 198 nucleotide 3'-untranslated region preceding the polyA tail. The 3'-untranslated region contains a polyadenylation signal, AUUAAA, 14 nucleotides upstream from the polyA tail. The derived protein sequence contains a putative signal peptide region suggesting that the protein may be secreted. The nucleotide and derived amino-acid sequences were compared to previously determined sequences, particularly to those of hormone-regulated proteins and growth factors, and no obvious similarities were observed.
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PMID:Sequence of the pS2 mRNA induced by estrogen in the human breast cancer cell line MCF-7. 632 30

We have shown previously that an increase in the level of accumulated pS2 mRNA is first detectable in MCF-7 cells after 3 hr of estradiol treatment. Using in vitro nuclear run-on transcription with nuclei prepared from MCF-7 cells grown in the presence of estradiol or in estradiol-stripped medium, we demonstrate here that expression of the pS2 gene is controlled by estrogen at the transcriptional level. Induction of transcription is a very early event that is already apparent within 15 min after addition of estradiol to the culture medium. In addition, pretreatment of the cells with the protein synthesis inhibitor cycloheximide does not prevent induction of pS2 gene transcription, indicating that it corresponds to a primary effect of estrogen. The pS2 gene in MCF-7 cells represents a unique example of a human gene whose transcription is directly controlled by estrogen.
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PMID:Activation of pS2 gene transcription is a primary response to estrogen in the human breast cancer cell line MCF-7. 659 3

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

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

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


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