UNIPROT:P04155 - FACTA Search

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

Exposure of MCF-7 breast carcinoma cells to estradiol results in an increase in transforming growth factor alpha (TGF-alpha) synthesis and secretion. Since TGF-alpha is a potent inducer of proliferation in MCF-7 cells, the increase in TGF-alpha production by estradiol is thought to play an important role in the estrogen stimulation of growth of these cells. Retinoic acid inhibits the proliferation of MCF-7 cells and antagonizes the estrogen stimulation of growth. Addition of retinoic acid resulted in a greater than 70% inhibition of estradiol-induced TGF-alpha synthesis and secretion in MCF-7 cells. The increase in TGF-alpha mRNA expression by estradiol was also inhibited by exposure of the cells to retinoic acid. Pretreatment of the cells with retinoic acid for 24 or 72 h caused more than 50 and 90% inhibition, respectively, of the estradiol-enhanced expression of TGF-alpha mRNA. Expression of pS2 mRNA in MCF-7 cells was stimulated approximately 8-fold by estradiol. Retinoic acid treatment suppressed by greater than 80% both the basal and estradiol-induced pS2 mRNA expression. Retinoic acid modulation of the estrogen receptor gene mRNA was not responsible for the retinoic acid inhibition of the stimulation of pS2 and TGF-alpha gene expression by estradiol, since estrogen receptor gene expression was increased rather than decreased in the presence of retinoic acid. The nuclear retinoic acid receptors alpha and gamma mRNA were expressed in MCF-7 cells and its retinoic acid-resistant derivative RROI. Addition of estradiol to MCF-7 cells resulted in a decreased expression of retinoic acid receptor gamma mRNA; this reduction is prevented by the presence of retinoic acid. These results indicate that retinoic acid can inhibit estradiol-induced TGF-alpha and pS2 mRNA expression in MCF-7 cells. The suppression of TGF-alpha expression may represent one possible mechanism by which retinoic acid antagonizes the stimulation of MCF-7 proliferation by estradiol.
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PMID:Retinoid antagonism of estrogen-responsive transforming growth factor alpha and pS2 gene expression in breast carcinoma cells. 131 34

Breast cancer development is associated with several genetic abnormalities. Loss of heterozygosity in the short arm of chromosome 11 has been observed in 30% of tumors. We found homozygosity at five chromosome 11 polymorphic loci in genomic DNA of the MCF-7 breast carcinoma cell line, suggesting a possible loss of one chromosome 11. We have studied the transformed and tumorigenic phenotypes of MCF-7 cells following introduction of a normal human chromosome 11 via microcell fusion. MCF-7/H11 cell hybrids, containing chromosome 11, showed in vitro characteristics similar to the parental cell line. However, tumorigenicity in athymic mice was completely suppressed. Since tumor formation by MCF-7 cells is estrogen dependent, we have analysed the expression of the estrogen receptor and of the estrogen-activated gene pS2. No difference was detected between the parental MCF-7 cells and the derived chromosome 11 cell hybrids, indicating that the mechanism of MCF-7 tumor suppression by chromosome 11-associated functions does not directly involve the estrogen/estrogen receptor molecular pathway.
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PMID:Suppression of tumorigenesis by the breast cancer cell line MCF-7 following transfer of a normal human chromosome 11. 140 42

A human cDNA corresponding to the porcine pancreatic spasmolytic protein (PSP) was isolated, and the recombinant clone was originally termed hSP for human spasmolytic protein. Later, the term SML1 for spasmolysin was suggested for the human gene. This protein shows a remarkable sequence homology to pS2, a protein coded by an estrogen-induced gene isolated from the breast carcinoma cell line MCF-7. Although, at the DNA level, the gene sequences pS2 and hSP/SML1 display insufficient homology for cross-hybridization, their expression in tumor cells occurs with remarkable coordination. The human pS2 gene sequence has been assigned to chromosome 21, and we have therefore attempted to map the hSP/SML1 gene by using cDNA and Southern blotting of genomic DNAs from a panel of human-rodent somatic cell hybrids carrying different complements of human chromosomes. Interestingly, the hSP/SML1 gene is also localized on chromosome 21.
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PMID:Assignment of the gene for human spasmolytic protein (hSP/SML1) to chromosome 21. 151 87

The effects of the major human serum bile acid, glycochenodeoxycholic acid (GCDC), as well as unconjugated chenodeoxycholic acid (CDC), on the MCF-7 human breast cancer cell line have been studied in vitro under oestrogen and bile acid deprived culture conditions. GCDC increased the growth of the breast cancer cells over the range 10-300 microM. At concentrations in excess of the bile acid binding capacity of the medium cell growth was prevented. In contrast 10 microM CDC tended to reduce cell growth. Oestrogen (ER) and progesterone (PgR) receptors, pS2 and total cathepsin D were quantified by monoclonal antibody based immunoassays. Ten to 100 microM GCDC and 10 microM CDC down-regulated ER protein and this was accompanied by induction of the oestrogen-regulated proteins PgR, pS2 and possibly cathepsin D, including increased secretion of the latter two proteins into the culture medium. All these changes were quantitatively similar to those observed with 10 nM oestradiol. The bile acid effects on ER and PgR were not due to interference with the assay procedures. Cells incubated with 50 microM GCDC or 10 microM CDC had higher pmolar concentrations of the bile acids than controls. This study suggests that naturally occurring bile acids influence the growth and steroid receptor function of human breast cancer cells.
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PMID:Bile acids influence the growth, oestrogen receptor and oestrogen-regulated proteins of MCF-7 human breast cancer cells. 156 65

We established a simplified method for the quantitative measurement of pS2 mRNA using the reverse transcriptase-polymerase chain reaction (RT-PCR) method. Expression of the pS2 gene, which is transcriptionally induced by estrogen in breast cancer cell line MCF-7 cells, can be repressed by retinoic acid (RA) in unstimulated cells. The suppressive effect of RA on pS2 mRNA was inhibited by cycloheximide.
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PMID:Expression of pS2 gene in human breast cancer cell line MCF-7 is controlled by retinoic acid. 163 3

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

We have introduced the human estrogen receptor (ER) gene into HeLa cells, a human adenocarcinoma cell line of uterine origin, by infection. The ER cDNA was inserted into a retroviral vector (pMV7-ER) which also contains the neomycin resistance gene to allow for selection of stable infected clones. Northern analysis showed exogenous ER expression in stable clones. The ER protein expressed was about 66 kDa, similar to native MCF-7 ER, and binds with high affinity to estrogen (E2). We have also observed that addition of E2 at 10(-8) M inhibits the growth of the I-1 clone which expresses high levels of the ER (223 fmol/mg cytosol protein). The inhibitory effects of E2 directly correlate with the quantity of ER in the cells. E2-induced gene expression analysis showed that pS2 and progesterone receptor (PgR), genes induced in MCF-7 cells by E2, are not induced in the ER+ HeLa clones. However, c-myc expression was found to be decreased and may be responsible for the observed growth inhibition by E2.
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PMID:Stable expression of the human estrogen receptor in HeLa cells by infection: effect of estrogen on cell proliferation and c-myc expression. 168 89

Somatic cell hybrids between MCF-7 human breast cancer cells and normal immortalized human mammary epithelial cells have been obtained by polyethylene glycol-mediated cell fusion. The hybrid cells are suppressed in their ability to form tumors in nude mice, as well as in traits specific to the tumorigenic MCF-7 parent: growth factor independence, tumor necrosis factor sensitivity, and pS2 gene expression. In addition, they display other characteristics of the "normal" parent, including increased expression relative to the MCF-7 cells of the genes for the extracellular matrix component fibronectin, the intermediate filament keratin 5, and the angiogenesis inhibitor thrombospondin. The levels of keratins 8 and 18 also resemble those of the nontumorigenic parent. These results provide evidence for the existence of tumor suppressor gene products in immortal mammary epithelial cells. We propose a characteristic "suppressed" tumor cell phenotype, which encompasses altered cytoarchitecture, angiogenesis capabilities, and growth factor requirements.
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PMID:Suppression of tumor-forming ability and related traits in MCF-7 human breast cancer cells by fusion with immortal mammary epithelial cells. 169 Apr 27

We have examined the ability of estradiol (E2) to regulate the expression of three mRNAs [for pS2, progesterone receptor (PR), and estrogen receptor (ER)], known to be under E2 regulation in the parental E2 growth-responsive MCF-7 cells, in an E2 growth-independent MCF-7 K3), previously isolated from the parental estrogen-dependent MCF-7 K1 human breast cancer cells after long term growth in vitro in the absence of estrogen, acquired estrogen-independent growth in vitro as well as the ability to form tumors in nude mice in vivo without estrogen. We find that the content of pS2 mRNA and the transcription rate of the pS2 gene, while being markedly increased by E2 in MCF-7 K1 cells, are no longer stimulated by E2 in this subline, although protein kinase activators tremendously increase (greater than 10-fold) pS2 mRNA in both K1 and K3 cells. In fact, basal pS2 mRNA levels are elevated 2.8 +/- 0.4-fold in MCF-7 K3 cells, and E2 evokes a concentration-dependent suppression of the pS2 mRNA level. In contrast, PR mRNA in the K3 subline, as in the parental K1 cells, is still up-regulated by E2, and ER mRAN content and the ER mRNA transcription rate are still down-regulated by E2 and show normal E2 dose-response relationships, implying that the ER in this subline is functional. These results demonstrate that the progression to estrogen-independent growth in K3 cells is accompanied by a change in the regulation of some estrogen-induced genes by estrogen. While PR and ER retain normal patterns of regulation by E2, the pS2 gene in the estrogen growth-independent K3 subline is differentially affected and is no longer stimulated by E2. Our data suggest that this altered regulation of the pS2 gene is probably not caused by a defect of the ER or ER regulation in this subline.
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PMID:Differential regulation of gene expression by estrogen in estrogen growth-independent and -dependent MCF-7 human breast cancer cell sublines. 172 71

The human pS2 gene, isolated from the breast carcinoma cell line MCF-7 and shown to be under estrogen transcriptional control in a subclass of breast cancer cells was reported to be secreted in normal stomach surface epithelial cells, whereas additional gastrointestinal tissues like pancreas and colon do not secrete pS2 at all. In porcine pancreas, a spasmolytic polypeptide (sharing domains of homology with pS2) was observed; a corresponding human gene (hSP) was shown to be active in normal stomach mucosa. hSP and pS2 gene activity in normal and neoplastic pancreas tissues was then compared. Whereas both genes are inactive in normal pancreatic cells, activation of the pS2 sequence in a primary pancreatic carcinoma cell culture and in 23 tumor tissues was noted when investigated by immunostaining. In all cases when pS2 showed a regular 0.6 kb transcript, hSP displayed a transcript of 0.7 kb. Six of these tumors showed a reduced pS2 immunoreactivity and, at the same time, aberrant pS2 mRNA bands and a complete shut-down of the hSP gene were noted. In one case, whereas normal pancreas remained negative, the corresponding tumor and its metastasis displayed regular transcripts of pS2 and hSP. This remarkably high correlation suggests that pS2 and hSP expression in the pancreatic tumors, but not in their corresponding healthy tissue is significantly linked to molecular steps leading to tumorigenesis.
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PMID:Association of the human spasmolytic polypeptide and an estrogen-induced breast cancer protein (pS2) with human pancreatic carcinoma. 173 55

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