UMLS:C0006142 - FACTA Search

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

Loss of expression of the E-cadherin cell-cell adhesion molecule is important in carcinoma development and progression. Because previous data suggest that loss of E-cadherin expression in breast carcinoma may result from a dominant transcriptional repression pathway acting on the E-cadherin proximal promoter, we pursued studies of cis sequences and transcription factors regulating E-cadherin expression in breast cancer cells. E-box elements in the E-cadherin promoter were found to play a critical negative regulatory role in E-cadherin gene transcription in breast cancer cell lines lacking E-cadherin transcription. The E-box elements had a minimal role in E-cadherin transcription in breast cancer cell lines expressing E-cadherin. Two zinc-finger transcription factors known to bind E-box elements, SLUG and SNAIL, repressed E-cadherin-driven reporter gene constructs containing wild-type promoter sequences but not those with mutations in the E-box elements. Additionally, both SLUG and SNAIL repressed endogenous E-cadherin expression. These findings suggest SLUG and SNAIL are potential repressors of E-cadherin transcription in carcinomas lacking E-cadherin expression. Analysis of the expression patterns of SLUG, SNAIL, and E-cadherin in breast cancer cell lines demonstrated that expression of SLUG was strongly correlated with loss of E-cadherin transcripts. Taken together, the data indicate the E-box elements in the proximal E-cadherin promoter are critical in transcriptional repression of the E-cadherin gene, and SLUG is a likely in vivo repressor of E-cadherin in breast cancer.
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PMID:The SLUG zinc-finger protein represses E-cadherin in breast cancer. 1191 30

Human SNAIL1 (SNAI1) protein encoded by SNAI1/SNA gene represses transcription of E-cadherin/CDH1 gene. Human SNAIL2 (SNAI2) protein encoded by SNAI2/SLUG gene induces the first phase of epithelial-mesenchymal transition (EMT), including desmosome dissociation, cell spreading, and initiation of cell separation. Here, we have identified human SNAIL3 (SNAI3) gene using bioinformatics. Human SNAI3 gene, consisting of at least three exons, spans around the nucleotide position 320214-328221 of human reference genomic contig NT_010404.8 in the reverse orientation. SNAI3 gene, was located between KIAA0233 gene and CBFA2T3 gene in human chromosome 16q24.3, a region affected in breast cancer, gastric cancer, hepatocellular carcinoma, ovarian cancer, and therapy-related myeloid leukemia with t(16;21)(q24;q22) translocation. Human SNAI3 gene was found to encode 292-amino-acid polypeptide with the N-terminal SNAG domain and five zinc finger domains. N-terminal SNAG domain was identified in zinc finger proteins SNAI1, SNAI2, SNAI3, SCRATCH (SCRT1), GFI1, and GFI1B. ATP/GTP binding site was identified in SCRT1, GFI1 and GFI1B, but not in SNAI1, SNAI2 and SNAI3. Phylogenetic analysis of human zinc finger proteins with SNAG domain revealed that SNAI1, SNAI2 and SNAI3 were more closely related. These results clearly indicate that SNAI1, SNAI2 and SNAI3 constitute a subfamily among SNAG zinc-finger proteins. Human SNAI3 mRNA was expressed in skin melanotic melanoma, lung epidermoid carcinoma, and germ cell tumor. Because SNAG zinc-finger proteins are transcriptional repressors implicated in carcinogenesis and embryogenesis, SNAI3 gene might be a potent target of pharmacogenomics in the field of oncology and regenerative medicine.
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PMID:Identification and characterization of human SNAIL3 (SNAI3) gene in silico. 1257 45

In our study, we aimed to investigate the expression of N-cadherin and E-cadherin and their dependency on epithelial-mesenchymal transition regulators SNAI1, SIP1 and TWIST in human colon cancer. Expression of E-cadherin and N-cadherin was examined by immunohistochemistry in 80 colon carcinomas by using paraffin embedded and formalin fixed tissues. Those cases were partly analyzed for mRNA expression of N-cadherin (42 cases), TWIST (18 cases), SNAI1 (25 cases) and SIP1 (25 cases) by real-time quantitative RT-PCR. Additionally, colon carcinomas that showed amplification of 20q13, the localization of the human SNAI1 gene, were examined. We found cytoplasmic and/or membrane-associated immunoreactivity of N-cadherin in 35/80 (44%) of the cases. However, there was no correlation to upregulated TWIST mRNA levels, as we have shown previously for diffuse-type gastric cancers with abnormal N-cadherin expression. Reduced and/or cytoplasmic E-cadherin immunoreactivity was detected in 19% (15/80) of the cases. Expression of SNAI1 or SIP1 mRNA was not seen in any of the 25 cases analyzed. There was no correlation between amplification of 20q13 and SNAI1 mRNA expression. Remarkably, N-cadherin was almost exclusively expressed in those cases showing normal E-cadherin immunoreactivity, suggesting a mutual exclusion between abnormal E-cadherin reduction and upregulation of N-cadherin. For the first time, we postulate a role for N-cadherin in primary colon cancer progression, which may be similar to the effect discovered by others in breast cancer cell lines, where coexpressed N-cadherin can exert a dominant function over E-cadherin's adhesive function and thus promote tumor invasiveness.
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PMID:Neoexpression of N-cadherin in E-cadherin positive colon cancers. 1525 40

The molecular signature that defines tumor microvasculature will likely provide clues as to how vascular-dependent tumor proliferation is regulated. Using purified endothelial cells, we generated a database of gene expression changes accompanying vascular proliferation in invasive breast cancer. In contrast to normal mammary vasculature, invasive breast cancer vasculature expresses extracellular matrix and surface proteins characteristic of proliferating and migrating endothelial cells. We define and validate the up-regulated expression of VE-cadherin and osteonectin in breast tumor vasculature. In contrast to other tumor types, invasive breast cancer vasculature induced a high expression level of specific transcription factors, including SNAIL1 and HEYL, that may drive gene expression changes necessary for breast tumor neovascularization. We demonstrate the expression of HEYL in tumor endothelial cells and additionally establish the ability of HEYL to both induce proliferation and attenuate programmed cell death of primary endothelial cells in vitro. We also establish that an additional intracellular protein and previously defined metastasis-associated gene, PRL3, appears to be expressed predominately in the vasculature of invasive breast cancers and is able to enhance the migration of endothelial cells in vitro. Together, our results provide unique insights into vascular regulation in breast tumors and suggest specific roles for genes in driving tumor angiogenesis.
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PMID:Alterations in vascular gene expression in invasive breast carcinoma. 1552 Jan 92

Using genome-wide expression profiling of a panel of 27 human mammary cell lines with different mechanisms of E-cadherin inactivation, we evaluated the relationship between E-cadherin status and gene expression levels. Expression profiles of cell lines with E-cadherin (CDH1) promoter methylation were significantly different from those with CDH1 expression or, surprisingly, those with CDH1 truncating mutations. Furthermore, we found no significant differentially expressed genes between cell lines with wild-type and mutated CDH1. The expression profile complied with the fibroblastic morphology of the cell lines with promoter methylation, suggestive of epithelial-mesenchymal transition (EMT). All other lines, also the cases with CDH1 mutations, had epithelial features. Three non-tumorigenic mammary cell lines derived from normal breast epithelium also showed CDH1 promoter methylation, a fibroblastic phenotype and expression profile. We suggest that CDH1 promoter methylation, but not mutational inactivation, is part of an entire programme, resulting in EMT and increased invasiveness in breast cancer. The molecular events that are part of this programme can be inferred from the differentially expressed genes and include genes from the TGFbeta pathway, transcription factors involved in CDH1 regulation (i.e. ZFHX1B, SNAI2, but not SNAI1, TWIST), annexins, AP1/2 transcription factors and members of the actin and intermediate filament cytoskeleton organisation.
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PMID:E-cadherin transcriptional downregulation by promoter methylation but not mutation is related to epithelial-to-mesenchymal transition in breast cancer cell lines. 1649 25

Lysyl oxidase-like 2 (LOXL2) belongs to an amine oxidase family whose members have been implicated in crosslink formation in stromal collagens and elastin, cell motility, and tumor development and progression. We previously demonstrated the association between increased LOXL2 expression and invasive/metastatic behavior in human breast cancer cells and mouse squamous and spindle cell carcinomas, interaction between LOXL2 and SNAIL in epithelial-mesenchymal transition, and localization of the LOXL2 gene to 8p21.2-21.3, within a minimally deleted region in several cancers, including colon and esophagus. In the present study, we analyzed LOXL2 expression in colon and esophageal tumors, and explored methylation as a regulator of LOXL2 expression. Immunohistochemistry using normal tissues demonstrated intracellular localization of LOXL2 in colonic enteroendocrine cells and esophageal squamous cells at the luminal surface, but not in mitotically active cells. Tissue array analysis of 52 colon adenocarcinomas and 50 esophageal squamous cell carcinomas revealed presence of LOXL2 expression in 83 and 92% of the samples, respectively, and a significant association between increased number of LOXL2-expressing cells and less-differentiated colon carcinomas. We determined that the methylation status of the 1150 bp 5' CpG island may contribute to the regulation of the gene. Loss of heterozygosity studies, using a microsatellite within intron 4 of the LOXL2 gene, revealed that loss of LOXL2 was unlikely to play a major role in either colon or esophageal tumors. These results suggest that increased LOXL2 expression in colon and esophageal cancer may contribute to tumor progression.
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PMID:Lysyl oxidase-like 2 expression is increased in colon and esophageal tumors and associated with less differentiated colon tumors. 1739 33

Breast cancer progression is driven by altered gene expression. We show that the RIN1 gene, which encodes a RAS effector regulating epithelial cell properties, is silenced in breast tumor cell lines compared with cultured human mammary epithelial cells. We also report that RIN1 is often reduced in human breast tumor cells compared with morphologically normal breast glandular cells. At least two silencing mechanisms seem to be involved. Overexpression of the transcription repressor SNAI1 (Snail) was observed in ZR75-1 cells, and SNAI1 knockdown restored RIN1 expression. In addition, DNA methylation within the RIN1 promoter and the first exon in KPL-1 cells suggested that epigenetic modifications may contribute to silencing, and demethylation was shown to restore RIN1 expression. Reexpression of RIN1 was shown to inhibit anchorage-independent growth in soft agar. In addition, RIN1 expression inhibited both the initiation and progression of tumorigenesis for two breast tumor cell lines in a mouse model, consistent with a tumor suppressor function. We also show that RIN1 acts as a negative regulator of tumor cell invasive growth and that this requires the ABL kinase-signaling function of RIN1, suggesting a mechanism through which RIN1 silencing may contribute to breast cancer progression.
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PMID:RIN1 is a breast tumor suppressor gene. 1808 79

The transcription factor, SNAI1 (Snail), has recently been proposed as an important mediator of tumor invasion because of its role in E-cadherin down-regulation and induction of epithelial-mesenchymal transition. In human breast cancer, the expression of SNAI1 and/or the homologous SNAI2 (Slug) has been associated with E-cadherin repression, local or distant metastasis, tumor recurrence, or poor prognosis in different tumor series. However, the specific contribution of either factor to breast tumor progression is still unclear. We have analyzed the role of SNAI1 in human breast cancer by loss of function studies and provide evidence of a major role for SNAI1 in both primary tumor growth and metastasis of human breast carcinoma MDA-MB-231 cells. Specific silencing of SNAI1 by short hairpin RNA induces a decrease in mesenchymal and proinvasive markers (MMP9, ID1, SPARC) in MDA-MB-231 cells, concomitant with reduced in vitro invasive behavior. More importantly, stable SNAI1 silencing in MDA-MB-231 cells leads to a dramatic reduction of in vivo tumor incidence and growth rate. Tumors induced by MDA-MB-231-SNAI1-silenced cells show extensive necrotic regions and a significant decrease in invasive and angiogenic markers. Moreover, SNAI1 silencing increases the sensitivity of MDA-MB-231 cells to chemotherapeutics relevant in breast cancer treatments, gemcitabine and docetaxel. Remarkably, analysis of cell lines derived from lymph node metastasis indicates that SNAI1 expression is required for metastatic dissemination.
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PMID:SNAI1 is required for tumor growth and lymph node metastasis of human breast carcinoma MDA-MB-231 cells. 1808 2

Transforming growth factor beta (TGF-beta) receptor (TbetaR) signaling contributes to normal development as well as tumorigenesis. Here we report that RIN1, a RAB5 guanine nucleotide exchange factor (GEF) and down regulator of receptor tyrosine kinases (RTKs), promotes TbetaR signaling through enhanced endocytosis. TbetaR activation induces SNAI1 (Snail), a transcription repressor that reduces RIN1 expression, providing a negative feedback mechanism to control TbetaR trafficking and downstream signaling. Persistent RAS signaling disrupts this equilibrium by stabilizing SNAI1 protein, resulting in strong silencing of RIN1 and stabilization of RTKs. TGF-beta-induced RIN1 silencing in breast cancer cells prolonged sensitivity to hepatocyte growth factor, a ligand for the MET-type RTK, and enhanced growth factor-directed cell motility. We conclude that in some tumor cells TbetaR and RAS signals are integrated through the silencing of RIN1, leading to a reduction in RAB5-mediated endocytosis. These findings shed new light on the basis for distinct interpretations of TGF-beta signaling by normal versus transformed cells.
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PMID:Integration of transforming growth factor beta and RAS signaling silences a RAB5 guanine nucleotide exchange factor and enhances growth factor-directed cell migration. 1816 Jul 7

SNAI1P, a protein coded by a retrogene, is a member of the SNAI family of E2-box binding transcriptional repressors. To evaluate whether the mode of action of SNAI1P is similar to those of the other predominant members of the SNAI family, we studied its action on human claudin 7 (CLDN7) gene promoter which has seven E2-boxes. We over-expressed FLAG-tagged SNAI1P in MCF7 and MDA-MB-468 cells. SNAI1P inhibited the expression of CLDN7 in these recombinant cells. SNAI1P also inhibited cloned CLDN7 gene promoter activity in human breast cancer cells. ChIP assays revealed that SNAI1P is recruited on the CLDN7 gene promoter along with the co-repressor CtBP1 and the effector HDAC1. Treatment of the cells with trichostatin A, an inhibitor of HDAC1, abrogated the repressor activity of SNAI1P. These data suggest that SNAI1P inhibits CLDN7 gene promoter epigenetically in breast cancer cells through chromatin remodeling.
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PMID:Mode of action of the retrogene product SNAI1P, a SNAIL homolog, in human breast cancer cells. 1927 96

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