UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Episialin, also designated MUC1, CA 15-3 antigen and PEM, is an established serum marker for breast cancer. Its function and possible involvement in tumor progression has not yet been completely established. The molecule is an extended rod-like molecule protruding high above the cell surface. It is often highly overexpressed in breast cancer relative to normal breast epithelium cells. Overexpression of episialin on cells in vitro reduces cell-cell and cell-extracellular matrix adhesion, because the rod-like molecule masks the adhesion receptors. Episialin also exerts its anti-adhesion effect in vivo. In certain human tumors, where episialin was present at the basal side of the cell, abnormal contacts between the plasma membrane and the stroma were observed. As a consequence of its anti-adhesion properties, episialin overexpression reduces the sensitivity of the cells for cytotoxic lymphocytes. This might be one of the reasons why episialin transfected cells are more potent to form experimental metastases after i.v. injection into nude mice.
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PMID:Is episialin/MUC1 involved in breast cancer progression? 772 39

MUC1 mucin is found in a variety of epithelial tissues and is overexpressed in several epithelial cancers. This molecule could modulate cellular adhesion and thereby influence tumor invasion and metastasis. Little is known of MUC1 gene expression in thyroid tissues. We investigated whether MUC1 mucin gene alteration and/or expression correlated with thyroid tumor progression by studying 21 fresh thyroid tissue specimens comprising 10 macrofollicular adenomas and 11 papillary carcinomas. Normal adjacent tissue from the same patients was also studied. To determine the integrity and expression of the MUC1 mucin gene, a complementary DNA (cDNA) probe was used for Southern blot analysis of DNA and Northern blot analysis of RNA. A detailed immunohistochemical analysis of MUC1 protein expression was performed with DF3 monoclonal antibody, and was compared with other tumor characteristics and clinical manifestations at diagnosis. Of the 14 tumors informative (heterozygous) with the pMUC10 polymorphic probe, 2 (14%) showed loss of heterozygosity (1 adenoma and 1 carcinoma). Overexpression of MUC1 RNA, compared with normal thyroid tissue, was observed in 6 of the 11 papillary carcinomas and in none of the 10 adenomas. Immunostaining of the corresponding formalin-fixed paraffin-embedded tissue sections detected MUC1 mucin protein at the apical domain of follicular cells. Most of the lining was thin in normal tissue and follicular adenomas, but the protein was more irregularly and less strongly expressed in adenomas. In carcinomas the epithelial mucin produced by the MUC1 gene was present irregularly as a thin and/or thick lining at the apical domain of tumor cells. In addition, 5 of the 6 samples with MUC1 mRNA overexpression showed intracytoplasmic staining. Moreover, intracytoplasmic MUC1 mucin staining was found in 75% of "high-risk" papillary thyroid carcinoma (PTC) (PTC with extrathyroid extension at initial diagnosis and/or lymph node involvement), and in only 28.5% of "low-risk" PTC (purely intrathyroidal carcinomas).
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PMID:MUC1 mucin gene, transcripts, and protein in adenomas and papillary carcinomas of the thyroid. 934 75

Carcinoma cell detachment is an important step in tumor progression and metastasis. Episialin (EMA), if expressed throughout the entire cell surface, may inhibit cell-cell and cell-matrix adhesion. We investigated whether the cellular distribution of episialin in non-small cell lung cancer (NSCLC) is associated with tumor progression. We evaluated the expression of episialin by immunohistochemical staining, in surgical specimens from 122 adenocarcinomas and 99 squamous cell carcinomas. Episialin was present in most NSCLC, with a higher percentage of immunoreactive neoplastic cells in adenocarcinoma than in squamous cell carcinoma (p = 0.0001). In adenocarcinoma the depolarized pattern was significantly associated with nodal metastasis (p = 0.005) and with advanced stage (p = 0.007). In conclusion, nodal metastasis and advanced pathological stage in adenocarcinoma are associated with a depolarized cellular distribution of episialin, suggesting a possible involvement of the molecule in cancer metastasis.
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PMID:Depolarized expression of episialin (EMA, MUC1) in lung adenocarcinoma is associated with tumor progression. 967 44

Molecular changes associated with breast cancer progression were characterized using the MCF-10F cell series. MCF-10F was established from fibrous mastectomy tissue of a patient without detectable cancer. In vitro treatment of MCF-10F cells with benzo(a)pyrene resulted in a transformed subclone MCF-10F-BP1 (BP1). Transfection of clone BP1 with T24-Hras resulted in the tumorigenic line MCF-10F-BP1-Tras (BP1-Tras). Using flow cytometry, the expression of HLA I, ERBB-2 and MUC-1 was found to be comparable in 'normal' MCF-10F, transformed BP1 and tumorigenic BP1-Tras cells. Glycosylated mucin is elevated in BP1 but reduced in BP1-Tras cells. Using mRNA differential display analysis, cDNA profiles of the 'normal', transformed and tumorigenic cell lines were strikingly similar, yet distinct and elevated expression of several common cDNA fragments was detected in BP1 and BP1-Tras when compared with MCF-10F cells. These fragments were cloned and sequenced. The sequences of clones T1-360 and C4-310 are homologous to two reported EST cDNA clones from human fetal tissue and were further characterized. Elevated expression of the genes corresponding to clones T1-360 and C4-310 was verified using Northern blotting. High-level expression of these genes was also detected in the breast cancer cell line MCF-7 that was derived from the pleural effusion of a patient with advanced breast cancer. Therefore, specific molecular changes associated with breast cancer development were identified and may be indicators of neoplastic progression.
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PMID:Neoplastic progression of breast epithelial cells--a molecular analysis. 968 93

The band 1q21 is among the most common sites affected by chromosomal translocations in lymphoid, myeloid, epithelial, and sarcomatous lesions. In non-Hodgkin's lymphoma (NHL), translocations and duplications affecting this chromosomal site are frequently, but not exclusively, seen in association with primary abnormalities such as the t(14;18)(q32;q21) and t(8;14)(q24;q32) translocations, suggesting a role for 1q21 rearrangements in tumor progression. We report here the characterization and cloning of breakpoints in a case of extranodal ascitic B-cell lymphoma with a t(1;14)(q21;q32) translocation. The breakpoints on the der(1) and der(14) chromosomes were mapped by fluorescence in situ hybridization and Southern blot analysis and cloned using an IGHG (Cgamma) probe. The translocation linked the IGHG4 switch (Sgamma4) sequences of the productively rearranged allele to chromosome 1 sequences downstream of MUC1, leaving the MUC1 transcriptional unit intact. MUC1 was markedly overexpressed in the tumor at the mRNA and protein levels relative to lymphoma cell lines lacking a 1q21 rearrangement. Presumably, MUC1 transcription is aberrantly regulated by the IGHA (Calpha) 3' enhancer element retained on the same chromosome. Screening of a panel of B-cell lymphomas by Southern blot analysis identified a subset with a 3' MUC1 breakpoint and another with low-level amplification of MUC1. MUC-1 mucin has previously been shown to be frequently overexpressed in human epithelial cancers and to be associated with tumor progression and poor clinical outcome. Thus, MUC1 activation by chromosomal translocation, rearrangement, and amplification, identified here for the first time in NHL, is consistent with its suggested role in tumorigenesis. (Blood. 2000;95:2666-2671)
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PMID:MUC1 is activated in a B-cell lymphoma by the t(1;14)(q21;q32) translocation and is rearranged and amplified in B-cell lymphoma subsets. 1075 49

Pancreatic cancer is a highly aggressive, treatment refractory cancer and is the fourth leading cause of death in the United States. In humans, 90% of pancreatic adenocarcinomas overexpress altered forms of a tumor-specific Ag, mucin 1 (MUC1; an epithelial mucin glycoprotein), which is a potential target for immunotherapy. We have established a clinically relevant animal model for pancreatic cancer by developing a double transgenic mouse model (called MET) that expresses human MUC1 as self molecule and develops spontaneous tumors of the pancreas. These mice exhibit acinar cell dysplasia at birth, which progresses to microadenomas and acinar cell carcinomas. The tumors express large amounts of underglycosylated MUC1 similar to humans. Tumor-bearing MET mice develop low affinity MUC1-specific CTLs that have no effect on the spontaneously occurring pancreatic tumors in vivo. However, adoptive transfer of these CTLs was able to completely eradicate MUC1-expressing injectable tumors in MUC1 transgenic mice, and these mice developed long-term immunity. These CTLs were MHC class I restricted and recognized peptide epitopes in the immunodominant tandem repeat region of MUC1. The MET mice appropriately mimic the human condition and are an excellent model with which to elucidate the native immune responses that develop during tumor progression and to develop effective antitumor vaccine strategies.
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PMID:Mice with spontaneous pancreatic cancer naturally develop MUC-1-specific CTLs that eradicate tumors when adoptively transferred. 1097 66

MUC1 (DF3 antigen) is a member of a family of high molecular weight glycoproteins. Recent studies have demonstrated that MUC1 is expressed in tumors of various human organs and may function as an anti-adhesion molecule that inhibits cell-to-cell adhesion, inducing tumor metastasis. However, expression patterns of MUC1 have not yet been established in human esophageal carcinomas. In this study, we examined MUC1 expression and its histopathological localization in human esophageal squamous cell carcinoma. MUC1 immunoreactivity was found in 17 (32.1%) out of 53 esophageal squamous cell carcinomas, regardless of the depth of tumor invasion, vascular invasion or lymph node status. MUC1 expression was detected in the intramucosal part in 28.3% (15 out of 53) and in the invasive part in 32.6% (14 out of 43) of the esophageal carcinomas (no significant difference). These observations suggested that expression of MUC1 is an early event in cancer progression, but that it is not significantly associated with metastasis of human esophageal carcinomas.
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PMID:Immunohistochemical MUC1 (DF3 antigen) expression of human esophageal squamous cell carcinoma. 1139

MUC1/sec is a secreted form of the glycoprotein mucin 1 (MUC1). To characterize the role that MUC1 and MUC1/sec have in tumor progression, these genes were expressed in DA-3 mammary tumor cells. DA-3 cells and DA-3 cells expressing the transmembrane MUC1 gene (DA-3/TM) grow with similar kinetics in BALB/c mice. Surprisingly, DA-3 cells expressing and secreting MUC1/sec (DA-3/sec) fail to form tumors in vivo. The mechanism of rejection was evaluated using mice deficient in constituents of the immune system. All mice lacking IFN-gamma, NK, NKT, or macrophages formed DA-3/sec tumors that regressed shortly after implantation. However, progressively growing DA-3/sec tumors developed in mice devoid of T lymphocytes. The importance of T lymphocytes in the rejection of DA-3/sec tumors was further supported by detection of DA-3-specific CTL in mice challenged with the DA-3/sec tumor. Recruitment of appropriate APC and effector cells is an important first step in the tumor clearance. Indeed, DA-3/sec cells or cell supernatants recruited 3-4 times as many macrophages as DA-3/TM cells in vivo, suggesting that a secreted chemotactic product is produced from DA-3/sec cells. RNA and protein analysis of DA-3/sec cells revealed that several genes are up-regulated by MUC1/sec expression, including MCP-1 (CCL-2). These results suggest DA-3/sec cells are capable of recruiting immune cells, and that rejection of DA-3/sec tumors, although aided by cells of the innate immune response, is ultimately due to T cell-mediated events.
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PMID:MUC1/sec-expressing tumors are rejected in vivo by a T cell-dependent mechanism and secrete high levels of CCL2. 1526 1

Several lines of evidence point towards a biological role of mucin and particularly MUC1 in colorectal cancer. A positive correlation was described between mucin secretion, proliferation, invasiveness, metastasis and bad prognosis. But, the role of MUC1 in cancer progression is still controversial and somewhat confusing. While Mukherjee and colleagues developed MUC1-specific immune therapy in a CRC model, Lillehoj and co-investigators showed recently that MUC1 inhibits cell proliferation by a beta-catenin-dependent mechanism. In carcinoma cells the polarization of MUC1 is lost and the protein is over expressed at high levels over the entire cell surface. A competitive interaction between MUC1 and E-cadherin, through beta-catenin binding, disrupts E-cadherin-mediated cell-cell interactions at sites of MUC1 expression. In addition, the complex of MUC1-beta-catenin enters the nucleus and activates T-cell factor/leukocyte enhancing factor 1 transcription factors and activates gene expression. This mechanism may be similar to that just described for DCC and UNC5H, which induced apoptosis when not engaged with their ligand netrin, but mediate signals for proliferation, differentiation or migration when ligand bound.
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PMID:MUC1 and colorectal cancer pathophysiology considerations. 1840 86

Endometriosis is defined by the presence of tissue implants resembling endometrial glands outside of the uterus, at ectopic sites, frequently on the ovarian surface. The ectopic lesions are often invasive, resistant to therapy, and may predispose to endometrioid and clear cell ovarian tumors. The complex mechanisms leading to chronic endometriosis are mediated partly by impaired immune surveillance in the host. Although innate immunity has been addressed previously, the response of adaptive immune effectors to specific antigens has not been characterized, mostly because very few endometriosis antigens have been defined to date. We postulated that the mucin 1 (MUC1) glycoprotein, which is normally present on eutopic human endometrial glands and overexpressed in endometrioid and clear cell ovarian tumors, is also present in ectopic lesions of ovarian endometriosis. Furthermore, changes in MUC1 expression in endometriosis could promote adaptive anti-MUC1 immunity that might play a role in the malignant progression. To test our hypothesis, we crossed MUC1 transgenic mice, which express human MUC1 under the endogenous promoter, with the loxP-Stop-loxP-Kras(G12D/+) (Kras) mice, in which endometriosis can be induced through Cre-loxP recombination. The double transgenic MUC1Kras mice develop benign, MUC1-positive ovarian lesions, closely resembling human endometriosis. Subsequent to disease induction, the mice generate high titers of IgM and IgG antibodies that are specific for MUC1. Antibodies appear early in disease and the predominance of the IgG1 subclass suggests Th2-driven immunity. Immune phenotyping revealed an accumulation of Foxp3+ CD4 regulatory T cells (Tregs) in the draining lymph nodes at late-stage disease. Furthermore, our observations in human endometriosis showed a similar recruitment of FOXP3+ CD4 T cells. Overall, our results reveal a Th2/Treg-dominant natural immunity in endometriosis with potential implications for cancer progression.
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PMID:A conditional mouse model for human MUC1-positive endometriosis shows the presence of anti-MUC1 antibodies and Foxp3+ regulatory T cells. 2128 23

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