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: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human breast cancer marker protein, MUC1, is a polymorphic transmembrane molecule containing a large extracellular domain that is primarily composed of a variable number of highly conserved 20-amino-acid tandem repeats. We report here the detection of a novel invariantly sized 1.2-kb MUC1 mRNA, in addition to the large polymorphic mRNAs, by probing Northern blots with MUC1-cDNA-unique-sequence probes. The nucleotide sequence of this novel MUC1 mRNA demonstrates that it is identical to the MUC1 cDNA sequences downstream and upstream to the tandem-repeat array of the transmembrane form of MUC1. However, it contains neither the central tandem repeat array itself nor its directly flanking sequences that are deleted by a differential splicing event utilizing splice acceptor and donor sequences 5' and 3' to the tandem-repeat array. The splice event retains, downstream to the splice acceptor site, an open reading frame identical to that of the repeat-array-containing MUC1 thereby generating the novel MUC1/Y protein. Cells transiently transfected with the novel MUC1/Y cDNA express the MUC1/Y protein that is modified by glycosylation. The MUC1/Y protein is also readily detected in human breast cancer cells grown in vitro. Furthermore, primary breast cancer tissue samples demonstrate significant levels of the MUC1/Y protein whereas expression in tissue adjacent to the tumor is undetectable. Molecular characterization presented here, of the novel MUC1/Y molecule lacking the repeat array, suggests that it is likely to play a role distinct to that of the polymorphic repeat-array-positive MUC1 protein and that it may act as a new marker protein for human breast cancer.
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PMID:Characterization and molecular cloning of a novel MUC1 protein, devoid of tandem repeats, expressed in human breast cancer tissue. 792 97

Molecular analysis of a protein highly expressed in human breast cancer, indicates the presence of a polymorphic tandem repeat domain that encodes a conserved 20 amino acid repeat motif rich in serine and threonine residues that in the mature protein, designated MUC1, are linked via O-glycosidic linkages to sugar residues. Recent studies performed in our laboratory have led to the molecular characterization of a novel MUC1 repeat array minus mRNA, generated by an alternative splicing event that deletes the central tandem repeat array and its flanking sequences. The conceptually derived amino acid sequence of the novel MUC1 protein shows that it is identical with the previously reported transmembrane MUC1 amino acid sequence except for the deletion of the central 20 amino acid tandem repeat array and sequences immediately flanking the repeat array. This indicates that the novel MUC1 protein, which is devoid of the "hallmark" feature of mucins, the tandem repeat array, may be functionally different to the much larger, heavily glycosylated polymorphic repeat array containing MUC1 proteins, that affect cell-cell interactions. Based on an analysis of its peptide sequence, we propose the hypothesis that the novel MUC1 protein may act as a receptor molecule that modulates signal transduction. Preliminary experimental data supports this hypothesis. It appears, therefore, that the MUC1 gene is multifunctional with regard to its protein products- the repeat array containing MUC1 proteins may alter cellular adhesion processes whereas the novel MUC1 protein could be acting as a receptor-like molecule participating in signal transmission.
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PMID:Does a novel form of the breast cancer marker protein, MUC1, act as a receptor molecule that modulates signal transduction? 798 36

Breast cancer markers (TM) are mainly useful for monitoring the course of disease after diagnosis and first line treatment with the control options of primary treatments early recognition of reactivation and efficiency control of palliative treatment. The best single and established marker is a polymorphic epithelial mucin of the MUC-1 family the prototype of which is CA 15-3 (successive markers: MCA, CA-549, TAG-12, CAM 26/29) followed by CEA with lower diagnostic sensitivity and specificity and TPA/TPS reflecting more the proliferative activity. Besides former TM combinations of CEA with one or more less specific markers (e.g. PAM, CRP, beta 2m, ferritin, GCDFP, HCG, total or boney AP, gamma GT), more recent studies recommend the use of fewer markers such as TPA/TPS + CEA or CA 15-3, CA 15-3 + CEA or MCA, CA M26 + CA M29, TAG12 + CA 15-3 + MCA and CEA + CA 15-3 + ESR.
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PMID:Serum marker combinations in human breast cancer (review). 819 81

Experimental systems using human mammary tissue, secretions and tumours may be based on in vitro culture or on growth of tissue or tumour fragments in the nude mouse. In the development of in vitro culture systems, a detailed characterization of the cultured cells within the framework of the epithelial cell lineages found in vivo is crucial. Monoclonal antibodies are useful tools for defining the profile of antigens expressed by the basal and luminal cells in the normal gland and in distinguishing subclasses between these two major groups. When these same reagents are used to characterize breast cancers, the majority are found to show the phenotype of luminal cells, with a small subset showing some evidence of basal markers. Luminal epithelial cells cultured from milk or reduction mammoplasty tissue have a short life span in vitro but can be immortalized using SV40TAg. Demonstrably malignant cells are difficult to culture from primary breast cancer, but ER+ and ER- cell lines showing the luminal phenotypes have been readily developed from metastases: some ER- breast cancer cell lines show a more undifferentiated phenotype, and these may have developed from tumours expressing basal markers. As with in vitro culture, it is difficult to obtain tumour growth in the nude mouse from primary breast cancer specimens, and established cell lines are also difficult to grow in this animal. We have focused our studies on cell lines with the luminal phenotype developed from milk. These non-tumorigenic cell lines differ from breast cancer cell lines (a) in being able to form organized three dimensional structures in the presence of an extracellular matrix and (b) in the correct glycosylation of the polymorphic epithelial mucin, which is expressed and aberrantly glycosylated in cancers. These cell lines are therefore being used to study the mechanisms underlying morphogenesis and the processing of PEM, and also as recipients for oncogenes and proto-oncogenes.
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PMID:Human models of breast cancer. 834 39

Previous studies have suggested that mucin gene expression is tissue-specific; however, the relationship between unique mucin gene products and the biochemical properties of mucins is unknown. The purpose of this study was to determine the biochemical and molecular characteristics of mucin synthesized by adenocarcinoma cell lines derived from breast (ZR-75-1), stomach (MGC-803), pancreas (Capan-2), and lung (Chago K-1). Mucin was quantitated by [3H]glucosamine labeling and Sepharose CL-4B chromatography. The mucinous nature of the labeled high molecular weight glycoproteins (HMG) was verified by alkaline borohydride treatment, cesium chloride density gradient ultracentrifugation, and sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Specific mucin gene expression was determined using cDNA probes for 2 distinct intestinal mucins (MUC-2 and MUC-3) and one breast cancer mucin (MUC-1). Specific core mucin proteins were confirmed by immunoblots using antibodies that recognize MUC-1, MUC-2, and MUC-3 core peptides. These experiments demonstrate that all cell lines contained HMG in the medium, cytosol, and membrane fractions. The HMG was mucinous in breast, pancreatic, and lung cell lines. In contrast, most of the HMG secreted by the gastric cell line was proteoglycan-like, due to its susceptibility to hyaluronidase, heparinase, and chondroitinase avidin-biotin complex. Ion-exchange (DEAE-Sephacel) chromatography of [3H]glucosamine-labeled HMG demonstrated that the acidic or basic nature of the mucin was different in all cancer cell lines tested. Despite these differences, mRNA and immunoblot analysis suggest that all cell lines predominantly express MUC-1 apomucin, small amounts of MUC-2 apomucin, and no MUC-3. Immunoprecipitation of MUC-1-type mucin using the 139H2 monoclonal antibody demonstrated that different sizes of mucin peptides were present in all cell lines, corresponding to the known length polymorphism of this mucin. The amount and nature of carbohydrate epitopes were analyzed by immunoblots using anti-T (peanut lectin), anti-Tn (91S8 monoclonal antibody), and anti-sialosyl Tn (JT10e monoclonal antibody). T and Tn antigens were significantly higher in breast and pancreatic cells as compared with lung and gastric cell lines. These findings correlated with increased activities of polypeptidyl N-acetylgalactosaminyl transferase and beta-1,3-galactosyltransferase.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mucin synthesis and secretion in various human epithelial cancer cell lines that express the MUC-1 mucin gene. 844 22

Specific tumour imaging with radiolabelled monoclonal antibodies has been extensively investigated. Although some success has been reported, there are many limitations due to the slow kinetics, poor extravasation, catabolism by the reticuloendothelial system, and non-specific uptake of macromolecules such as antibodies. We have tried to overcome some of the problems associated with monoclonal antibodies while retaining their specificity by using an antibody-derived synthetic peptide. A synthetic pentadecapeptide (alpha M2) derived from the third heavy-chain complementarity-determining region (CDR-3H) of a tumour-associated monoclonal antibody was produced and shown to retain its specificity against the pan-carcinoma cell-surface antigen, polymorphic epithelial mucin, detected by the parent antibody. The peptide was radiolabelled with technetium-99m and injected intravenously to image malignant lesions in 26 women with primary, recurrent, or metastatic breast cancer. Visualisation of breast tumours and their metastases was obtained shortly after administration of alpha M2, and was optimum by 3 h. Overall, 57 (77%) of 74 sites were visualised. Successful imaging was achieved in 14 of 15 primary tumour sites and all of eight local recurrences. Five of six metastases in the opposite breast, eight of 15 metastatic axillary lymph nodes, and all of six metastatic supraclavicular lymph nodes were imaged. Metastatic sites in the lungs, mediastinum, chest wall, and liver were poorly visualised because of background cardiac blood pool. alpha M2 detected small lesions ( < 2 cm) as efficiently as larger ones. The peptide was rapidly (3 h) cleared from the circulation. No acute or chronic adverse reactions due to the alpha M2 were observed. Specific tumour targeting with the radiolabelled anticancer peptide alpha M2 offers new opportunities for breast cancer imaging and possibly therapy.
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PMID:Breast cancer imaging with radiolabelled peptide from complementarity-determining region of antitumour antibody. 855 23

To investigate the clinical significance of an immune response to the MUC-1 encoded polymorphic epithelial mucin (PEM) breast cancer, circulating immune complexes containing PEM (PEM.CIC) were measured in sera from 96 healthy women, in pretreatment serum samples from 40 patients with benign breast tumours and from 140 patients with breast cancer and in serum samples from 61 breast cancer patients with recurrent or progressive disease. PEM.CIC were measured using a sandwich enzyme-linked immunoassay, and PEM serum levels were measured with CA 15.3 IRMA (Centocor Inc., Malvern, Pennsylvania, U.S.A.). Cut-off levels used for PEM.CIC and CA 15.3 were 120 Optical Density Units (O.D.) x 10(3) and 30 U/ml, respectively. In benign tumours, positivity for PEM.CIC was 37.5% (15/40). 36 of the 140 patients (25.7%) in the breast cancer pretreatment group had elevated PEM.CIC values. In patients with advanced metastatic disease, positivity for PEM.CIC was 18% (11/61). PEM.CIC was elevated in 32% (24/74) of node-negative patients, but only in 20% (12/59) of node-positive patients and absolute values were higher in node-negative patients (Mann-Whitney U test, two-tailed P = 0.0168). There was an inverse correlation between positivity for PEM.CIC and extent of disease: while 3 of the 6 patients with a carcinoma in situ were positive, only 1 of the 15 patients with more than five nodes involved had elevated levels of PEM.CIC. All 7 patients with distant metastases at first diagnosis were PEM.CIC negative. 28 out of 133 patients had a recurrence during the observation period (median 55 months, range 27-84 months). 23 of these 28 patients (82%) were PEM.CIC negative at the moment of first diagnosis. None of the patients with pretreatment elevation of both PEM.CIC and CA 15.3 (n = 13) relapsed. Our preliminary clinical results suggest that a humoral immune response to PEM protects against disease progression, and further support the idea of using synthetic peptides or glycopeptides containing the immunogenic core of the mucin as cancer vaccines.
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PMID:Humoral immune response to polymorphic epithelial mucin (MUC-1) in patients with benign and malignant breast tumours. 886 94

Given the plethora of well-documented breast carcinoma-associated antigens in humans including MAGE-1, -2 and -3, mutated p53, p21ras, HER-2/neu and DF3/MUC-1, coupled with evidence that humoral and cytotoxic T-cell responses against these antigens exist, the central dilemma facing tumor immunologists is why the host immune response is so inefficient. One possibility is that tumor cells themselves are either inefficient or ineffective antigen-presenting cells (APCs). The failure of tumor cells to function as APCs may be due to their inability to process and present the antigen, the absence or insufficient numbers of adhesion and costimulatory molecules or, potentially, the secretion of inhibitory cytokines. Therefore, we sought to determine whether human breast cancer cell lines could function as APCs and, if not, to identify mechanism(s) responsible for this defect. Here, we show that human breast cancer cell lines fail to present alloantigen. This defect does not reside in their inherent capacity to present antigen but rather is due to apoptosis of activated T cells induced by exposure to the breast carcinoma-associated mucin antigen, DF3/MUC1. These results support the hypothesis that DF3/MUC1 may contribute to the paucity of clinically significant anticarcinoma-specific immune responses.
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PMID:Breast cancer-associated antigen, DF3/MUC1, induces apoptosis of activated human T cells. 894 37

MUC-1 mucin is considered to be aberrantly glycosylated in breast, ovary, and other carcinomas in comparison with mucin from corresponding normal tissues. In order to clarify these differences in glycosylation, we have compared the O-linked carbohydrate chains from MUC-1 immunoprecipitated from [3H]GlcN-labeled breast epithelial cell lines (MMSV1-1, MTSV1-7, and HB-2) derived from cells cultured from human milk, with three breast cancer cell lines (MCF-7, BT-20, and T47D). Analysis by high pH anion chromatography showed that the normal cell lines had a higher ratio of GlcN/GalN and more complex oligosaccharide profiles than the cancer cell lines. Structural analyses were carried out on the oligosaccharides from MTSV1-7 and T47D MUC-1, and the following structures were proposed. MUC-1 from T47D had rather a simple glycosylation pattern, with NeuAcalpha2-3Galbeta1-3GalNAc-ol, Galbeta1-3GalNAc-ol, and GalNAc-ol predominating; in contrast, MUC-1 from MTSV1-7 had more complex structures, including a number of disialo, core 2 species, i.e. NeuAcalpha2-3Galbeta1-4GlcNAcbeta1-6[NeuAcalpha2 -3Galbeta1-3]GalNAc- ol and NeuAcalpha2-3Galbeta1-4GlcNAcbeta1-6[NeuAcalpha2 -3Galbeta1-4GlcNAcbet a1-3Galbeta1-3]GalNAc-ol. Double-labeling experiments with [3H]GlcN and 14C-aminoacids and analysis of GalNAc or GalNAc-ol:protein ratios in MUC-1 showed that there was also a significant difference in the degree of glycosylation of the mucin between the two cell types. We conclude that MUC-1 from breast cancer cell lines has simpler, and fewer, carbohydrate chains than MUC-1 from normal breast epithelial cells, and that these differences, combined or separately, explain the differential tumor specificity of some MUC-1 antibodies and T cells.
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PMID:Comparison of O-linked carbohydrate chains in MUC-1 mucin from normal breast epithelial cell lines and breast carcinoma cell lines. Demonstration of simpler and fewer glycan chains in tumor cells. 896 92

The effect of radioimmunotherapy (RIT) on target antigen expression was studied in breast carcinomas transplanted in immunodeficient mice. In nine separate experiments, a single dose of 1500 microCi of 131I-labeled monoclonal antibody (MAb) Mc5 was given to groups of mice carrying well-established, vascularized, transplantable breast tumors (MX-1). Mc5 recognizes an epitope on the tandem repeat of the breast epithelial MUC-1 mucin. This dose suppressed tumor growth for at least 20 days, after which the tumors began to regrow. At various times thereafter, tumors were removed and analyzed for target antigen expression by flow cytometry and immunohistochemistry. In no case was there any significant decrease in antigen content/cell in the tumors of treated mice compared to tumors in control untreated mice. Similar results were obtained with four other breast carcinomas (MCF-7, MDA-MB-331, MDA-MB-435, and MX-2A). To assess the effect of repeated RIT doses on target antigen expression, groups of mice with MX-1 tumors were given 2, 3, and 4 consecutive doses of 1200 microCi of 131I-labeled Mc5. One mouse each at 2, 3, and 4 doses (3 of 18) was cured of its tumor. Control mice were sacrificed after 50 days due to the excessive size of their tumors. Tumors from four mice from each group (2, 3, and 4 doses), after they began to regrow, were excised and analyzed for mucin content and compared to tumors from untreated mice with similar-size tumors transplanted at later dates. In none of the treated groups was there any decrease in mucin content. These results demonstrate that RIT with an anti-breast mucin MAb does not result in the appearance of antigen-negative tumor cells, thus indicating that repeated fractionated doses, which will most likely be necessary for an eventual cure of breast cancer with MAb therapy, are possible.
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PMID:Effect of multiple, repeated doses of radioimmunotherapy on target antigen expression (breast MUC-1 mucin) in breast carcinomas. 906 79


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