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)

Breast cancer is the most common malignant tumor among women, comprising an estimated 24% of all cancer cases and 18% of all cancer deaths. At least half of the patients with primary breast cancer will ultimately die by metastatic disease. The tumor characteristics, the natural course of the disease and the response to therapy vary strongly. A number of recently detected cell biological parameters such as oncogenes/suppressor genes, growth factors and secretory proteins are more or less important prognostic factors, because they influence the characteristics and behavior of a tumor with respect to metastatic pattern, extent of cellular differentiation, growth rate and response to treatment. However, there is no clear consensus how best to identify patients at high or low risk. In our experience c-myc amplification and pS2 protein are strong prognosticators for relapse rate, while in advanced disease (apart from a negative estrogen/progesterone receptor/pS2 status) amplification of HER2/neu is a good prognosticator for failure to endocrine therapy. In the diagnosis of breast cancer, in vivo imaging of tumors by labeled hormones or other factors also forms a new development which might have implications for treatment too. With respect to treatment both endocrine and chemotherapy can cure a minority of patients with micrometastases, but in patients with advanced disease only a prolongation of (progression-free) survival can be reached. Response rates decrease with increasing tumor load. In the past decade a number of interesting new endocrine agents has been developed such as new (pure) (anti)steroidal agents, vitamins, aromatase inhibitors, analogs of peptide hormones, prolactin inhibitors and growth factor antagonists. However, less is known on the (potential) interaction between hormones, chemotherapeutic agents, retinoids, cytokins, growth factor antagonists and irradiation. Rapid detection of new powerful combination therapies are needed to improve treatment results during the nineties.
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PMID:Clinical breast cancer, new developments in selection and endocrine treatment of patients. 144 97

The expression of the pS2 gene in breast tissues was assessed by measuring pS2-protein using a radioimmunoassay, and by determining pS2-mRNA using Northern blotting. There was a good correlation between the two measurements, indicating that expression of the pS2 gene in breast tissues may be assessed by either method. Since radioimmunoassay is technically easier and more efficient than Northern blotting, radioimmunoassay will be the method of choice in routine applications.
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PMID:Expression of the pS2 gene in breast tissues assessed by pS2-mRNA analysis and pS2-protein radioimmunoassay. 146 73

Tumoral biological markers of breast cancer expand the predictive value of conventional prognostic factors, such as tumor size, axillary lymph node status, and histoprognostic grade. They include tumor estrogen and progesterone receptor levels, flow cytometric DNA analysis, to convey a prognostic value. Expression of the product of the gene pS2, which reflects the functional integrity of the estradiol receptor, indicates a good prognosis. In contrast, presence of growth factor receptors, such as the EGF receptor, or amplification of the HER2/neu or INT2 oncogene indicate a poor prognosis. Study of protein gp 170 and GST-pi predicts the response of tumors to chemotherapy, while the study of the potential doubling time (Tpot) provides an indication of the renewal capacity of the tumor. Markers of tumor invasiveness and metastatic potential include proteases (activators and inhibitors) produced either by tumor cells or by the cells of the stroma, gene nm 23, and membrane fatty acids. The place of the last markers in patients' treatment is not known yet. The knowledge of the tumor biological parameters along with clinical features should provide an accurate prediction of the aggressiveness of the tumor, allowing the best adjustment of treatment with the expected behavior of the disease.
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PMID:[Intratumoral biological markers in breast cancers]. 148 91

We have mapped five human chromosome 21 (HSA 21) markers in marsupials and a monotreme, two major groups of mammals that diverged from eutherians 130-150 and 150-170 million years before present (MYrBP), respectively. We have found that these genes map to two distinct autosomal sites, one containing SOD1/CBR/BCEI and the other containing ETS2/INFAR, in the marsupials Macropus eugenii and Sminthopsis macroura (which belong to orders that diverged 40-80 MYrBP), as well as in the monotreme Ornithorhynchus anatinus (the platypus). Since marsupials and monotremes diverged independently from eutherians, these data suggest that HSA 21 genes were originally located in two separate autosomal blocks. In another Sminthopsis species, SOD1 is linked to TRF (a marker on HSA 3q), suggesting that the ancestral SOD1/CBR/BCEI region also included HSA 3 markers. We suggest that these blocks became fused early in the eutherian evolution to form a HSA 3/21 chromosome, which has remained intact in artiodactyls, but has been independently disrupted in both the primate and rodent lineages.
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PMID:The evolution of human chromosome 21: evidence from in situ hybridization in marsupials and a monotreme. 150 47

The human spasmolytic protein, SML1/hSP, an inhibitor of spasmolytic activity and gastric acid secretion in the pig, has been shown to exhibit homology to the pS2 protein, an estrogen-dependent breast cancer marker. Moreover, SML1/hSP and pS2 are expressed at the same localization in the normal stomach and during healing of the gastrointestinal tract. Here we report the chromosomal localization, obtained by in situ hybridization, of the hSP gene (SML1) to chromosome 21 at 21q22.3. Using pulsed-field gel electrophoresis, we found SML1 to be within 230 kb of the BCEI/pS2 gene.
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PMID:The gene encoding the human spasmolytic protein (SML1/hSP) is in 21q 22.3, physically linked to the homologous breast cancer marker gene BCEI/pS2. 150 66

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

Expression of the oestrogen-regulated pS2 protein was investigated on paraffin-embedded sections of primary breast tumours from 200 node-negative patients. Immunoreactivity was observed in 56% of the cases. pS2 expression was inversely correlated with tumour size and proliferative activity, whereas a direct correlation was observed with steroid receptor. 5-year relapse free survival was influenced by tumour size (P = 0.02), oestrogen receptor status (P less than 0.05), and proliferative activity (P less than 0.01). No difference in relapse-free survival was observed between patients subdivided according to pS2 expression alone. However, among patients with oestrogen-receptor-negative tumors, pS2 expression predicted a shorter relapse-free survival.
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PMID:Prognostic relevance of pS2 status in association with steroid receptor status and proliferative activity in node-negative breast cancer. 151 41

We have used immunohistochemical and hormone-binding techniques to determine the presence of estrogen receptors, estrogen-receptor protein, progesterone receptors and pS2 protein in 97 invasive breast cancers. Our group of tumors displayed the same frequency of estrogen receptors and progesterone receptors as other comparable groups, but it contained more tumors containing pS2 protein. We also observed staining of morphologically normal cells in lobules adjacent to the tumors and in several fibroadenomas; both findings vary from some other reports. We attribute these variations to the use of a sensitive immunohistochemical method and choice of the lowest possible threshold to classify a tumor as pS2-positive. If we used a higher threshold, then about 95% of the tumors containing pS2 protein also contained estrogen receptor protein. Our results add further weight to the assertion that tumors containing pS2 protein also display estrogen receptors. The data also provide theoretical and indirect support to the clinical prediction that tumors containing pS2 protein are more likely to respond to hormonal therapy and may have a more indolent course than tumors lacking the molecule.
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PMID:pS2 protein and steroid hormone receptors in invasive breast carcinomas. 152 7

An enzyme-linked immunosorbent assay using monoclonal and polyclonal antibodies against recombinant pS2 was devised. It was used to measure pS2 concentration in the cytosol of 339 breast cancer, 15 fibroadenomas, 16 cases of benign breast disease, and 6 normal breast tissues. The mean value of pS2 concentration was higher in cancer, but the protein could be detected readily in benign tumors and even in normal breast. The concentration of pS2 was significantly lower in postmenopausal women and tumors of differentiation Grade 3. The pS2 concentration was correlated strongly with the presence of estrogen receptors (ER) and progesterone receptors (PR). No correlation was observed with the size, histologic type of the tumor, and lymph node status. The prognostic value of pS2 appeared relatively limited. It was clear cut only for a relatively small group of patients (approximately 15%), who had low concentrations of pS2 (less than or equal to 0.32 ng/mg of protein). These patients had a shorter disease-free interval and overall survival time. The most striking correlation was observed with the outcome of adjuvant hormone therapy. pS2 concentration was shown to be the most potent prognostic factor, preceding even ER.
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PMID:Enzyme-linked immunosorbent assay of pS2 in breast cancers, benign tumors, and normal breast tissues. Correlation with prognosis and adjuvant hormone therapy. 154 18

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

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