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)

To achieve strong adhesion to their neighbors and sustain stress and tension, epithelial cells develop many different specialized adhesive structures. Breakdown of these structures occurs during tumor progression, with the development of a fibroblastic morphology characteristic of metastatic cells. During Ras transformation, Rac-signaling pathways participate in the disruption of cadherin-dependent adhesion. We show that sustained Rac activation per se is sufficient to disassemble cadherin-mediated contacts in keratinocytes, in a concentration- and time-dependent manner. Cadherin receptors are removed from junctions before integrin receptors, suggesting that pathways activated by Rac can specifically interfere with cadherin function. We mapped an important region for disruption of junctions to the putative second effector domain of the Rac protein. Interestingly, although this region overlaps the domain necessary to induce lamellipodia, we demonstrate that the disassembly of cadherin complexes is a new Rac activity, distinct from Rac-dependent lamellipodia formation. Because Rac activity is also necessary for migration, Rac is a good candidate to coordinately regulate cell-cell and cell-substratum adhesion during tumorigenesis.
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PMID:Activation of the small GTPase Rac is sufficient to disrupt cadherin-dependent cell-cell adhesion in normal human keratinocytes. 1107 1

E-Cadherin and its undercoat proteins, alpha- and beta-Catenins, which connect cadherins to actin filaments and establish firm cell-cell adhesion, act as an invasion suppressor system. It was demonstrated that transcriptional inactivation of E-Cadherin expression occurred frequently in tumor progression, and that E-Cadherin expression in human cancer cells was regulated by CpG methylation around the promoter region. In diffusely infiltrating cancers, mutations were found in the genes for E-Cadherin and alpha- and beta-Catenins. The E-Cadherin-mediated cell-adhesion system is inactivated by tyrosine phosphorylation of beta-Catenin at the invading front of cancers with high metastatic ability. An attempt was made to identify the kinases that participate in the aberrant tyrosine phosphorylation, and c-erbB-2 protein was found to be directly associated with beta-Catenin. Transfection of N-terminally deleted beta-Catenin, which binds to c-erbB-2 but not to cadherin, markedly reduced peritoneal dissemination and hematogenous metastasis of gastrointestinal cancer cells in mouse inoculation models. Regulation of the E-Cadherin-mediated cell adhesion system by tyrosine phosphorylation of beta-Catenin is important in determining the biological properties of human cancers. Tumor cells are dissociated throughout the entire tumor masses of diffuse-type cancers, whereas those of solid tumors with high metastatic potentials are often focally dissociated or dedifferentiated at the invading fronts. Thus, both irreversible and reversible mechanisms for inactivating the E-Cadherin-mediated cell adhesion system well correspond to the pathological features of human cancers.
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PMID:Molecular aspects of adhesion-epigenetic mechanisms for inactivation of the E-Cadherin-mediated cell adhesion system in cancers. 1121 45

We have performed a homozygous deletion screen on 268 candidate genes in 90 human tumor cell lines derived from multiple types of cancers. Most of the candidate genes investigated have been proposed to be involved in cellular processes that are germane to cancer progression, such as cell cycle control, genome maintenance, chromatin remodeling, cell adhesion, and apoptosis. We have detected novel homozygous deletions affecting four independent loci: Brahma-related gene (SMARCA4) on chromosome 19p in the TSU-Pr1 prostate and A427 lung carcinoma lines, Map Kinase Kinase 3 (MAP2K3) on 17q in the NCI-H774 lung tumor cell line, TMPRSS2 on 21q in the Bx PC-3 pancreatic carcinoma line, and Cadherin 6 (CDH6) on 5p in the SK-LU-1 lung carcinoma line. Subsequent analyses of the coding sequences of these four genes using cDNAs from a panel of tumor cell lines revealed multiple sequence variants. The results of this mutation study serve to demonstrate the feasibility of performing high-throughput screens of candidate genes in tumor cell lines to identify genes that may be targeted for mutation during the development of cancer.
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PMID:Mutation analyses of 268 candidate genes in human tumor cell lines. 1141 63

P-Cadherin/CDH3 belongs to the family of classic cadherins that are engaged in various cellular activities including motility, invasion, and signaling of tumor cells, in addition to cell adhesion. However, the biological roles of P-cadherin itself are not fully characterized. Based on information derived from a previous genome-wide cDNA microarray analysis of microdissected pancreatic ductal adenocarcinoma (PDAC), we focused on P-cadherin as one of the genes most strongly overexpressed in the great majority of PDACs. To investigate the consequences of overexpression of P-cadherin in terms of pancreatic carcinogenesis and tumor progression, we used a P-cadherin-deficient PDAC cell line, Panc-1, to construct a cell line (Panc1-CDH3) that stably overexpressed P-cadherin. Induction of P-cadherin in Panc1-CDH3 increased the motility of the cancer cells, but a blocking antibody against P-cadherin suppressed the motility in vitro. Overexpression of P-cadherin was strongly associated with cytoplasmic accumulation of one of the catenins, p120ctn, and cadherin switching in PDAC cells. Moreover, P-cadherin-dependent activation of cell motility was associated with activation of Rho GTPases, Rac1 and Cdc42, through accumulation of p120ctn in cytoplasm and cadherin switching. These findings suggest that overexpression of P-cadherin is likely to be related to the biological aggressiveness of PDACs; blocking of P-cadherin activity or its associated signaling could be a novel therapeutic approach for treatment of aggressive pancreatic cancers.
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PMID:Overexpressed P-cadherin/CDH3 promotes motility of pancreatic cancer cells by interacting with p120ctn and activating rho-family GTPases. 1583 38

The pathogenesis of vascular tumors such as angiosarcomas is poorly understood. Cadherin expression inversely correlates with tumor malignancy and the endothelial specific VE-cadherin is low or absent in angiosarcomas, suggesting an inhibitory role for this protein in tumor progression. In this paper we report that PmyT VE-cadherin null (VEC null) endothelial cells form larger vascular tumors in nude mice when injected subcutaneously as compared to isogenic VE-cadherin positive (VEC pos) cells. This effect requires the association of beta-catenin to VEcadherin, since a VE-cadherin mutant lacking the domain responsible for beta-catenin binding (Deltabetacat) cannot rescue the phenotype. In VEC null cells beta-catenin is phosphorylated and partly degraded. N-cadherin is increased and detected at junctions. VEC null cells also present an altered fibrinolytic activity with increases in tPA, uPA, uPAR and a strong reduction in PAI-1, which may be correlated to the high incidence of abrupt hemorrhages in VEC null tumors. Overall, these data strongly suggest that downregulation of VE-cadherin in endothelial tumors may have important consequences for tumor growth and bleeding complications.
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PMID:Downregulation of vascular endothelial-cadherin expression is associated with an increase in vascular tumor growth and hemorrhagic complications. 1596 86

Cadherin-mediated cell-cell adhesion defines the integrity of most tissues. Cell-cell adherens junctions are dynamic structures whose functional state is regulated by interactions of cadherin with beta-catenin, p120, and actin cytoskeleton structures. Small GTPases of the Rho family and GTPase Rap1 play the central role in the formation and maintenance of cell-cell adhesion. Aberrant activation of signaling pathways, transcriptional repression of the E-cadherin gene, ectopic expression of N-cadherin, and disturbances in regulation of adhesive and transcriptional functions of beta-catenin stimulate tumor progression.
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PMID:Changes in regulation of cell-cell adhesion during tumor transformation. 1870 82

The microenvironment is being increasingly recognized as a critical component in tumor progression and metastases. As such, the bi-directional signaling of extracellular mediators that promote tumor growth within the microenvironment is a focus of intense scrutiny. Interestingly, there are striking similarities between the phenotypes of aggressive tumor and embryonic stem cells, particularly with respect to specific signaling pathways underlying their intriguing plasticity. Here, we demonstrate the epigenetic influence of the hESC microenvironment on the reprogramming of aggressive melanoma cells using an innovative 3-D model. Specifically, our laboratory has previously demonstrated the redifferentiation of these melanoma cells to a more melanocyte-like phenotype (Postovit et al., Stem Cells 24(3):501-505, 2006), and now we show the loss of VE-Cadherin expression (indicative of a plastic vasculogenic phenotype) and the loss of Nodal expression (a plasticity stem cell marker) in tumor cells exposed to the hESC microenvironment. Further studies with the 3-D culture model revealed the epigenetic influence of aggressive melanoma cells on hESCs resulting in the down-regulation of plasticity markers and the emergence of phenotype-specific genes. Additional studies with the aggressive melanoma conditioned matrix microenvironment demonstrated the transdifferentiation of normal melanocytes into melanoma-like cells exhibiting a vasculogenic phenotype. Collectively, these studies have advanced our understanding of the epigenetic influence associated with the microenvironments of hESCs and aggressive melanoma cells, and shed new light on their therapeutic implications. Moreover, we have a better appreciation of the convergence of embryonic and tumorigenic signaling pathways that might stimulate further consideration of targeting Nodal in aggressive tumor cells resulting in a down-regulation of tumorigenic potential and plasticity.
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PMID:The epigenetic influence of tumor and embryonic microenvironments: how different are they? 1930 81

Cadherin shedding affects migration and occurs in development and cancer progression. By examining the in vivo biological function of the extracellular cadherin domain (CEC1-5) independently of the shedding process itself, we identified a novel function for cadherins in convergent extension (CE) movements in Xenopus. CEC1-5 interfered with CE movements during gastrulation. Unexpectedly, CEC1-5 did not alter cell aggregation or adhesion to cadherin substrates. Instead, gastrulation defects were rescued by a membrane-anchored cadherin cytoplasmic domain, the polarity protein atypical PKC (aPKC) or constitutive active Rac, indicating that CEC1-5 modulates a cadherin-dependent signalling pathway. We found that the cadherin interacts with aPKC and, more importantly, that the extracellular domain alters this association as well as the phosphorylation status of aPKC. This suggests that CE movements require a dynamic regulation of cadherin-aPKC interaction. Our results show that cadherins play a dual role in CE movements: a previously identified adhesive activity and an adhesion-independent function that requires aPKC and Rac, thereby directly connecting cadherins with polarity. Our results also suggest that increased cadherin shedding, often observed in cancer progression, can regulate migration and invasion by modulating polarity protein activity.
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PMID:An adhesion-independent, aPKC-dependent function for cadherins in morphogenetic movements. 1954 88

The aim of this study was to observe the effect of interferon alpha (IFNalpha) on tumor endothelial cells (TECs) in highly metastatic hepatocellular carcinoma (HCC) model, and to investigate the underlying mechanism. Nude mice with HCC xenograft were treated with IFNalpha. Gene expression profiles of TECs were analyzed by utilizing cDNA microarray. The differentiation of tumor blood vessels was evaluated by CD31/alphaSMA dual immunohistochemistry. Apoptosis of TECs was determined by CD31/TUNEL double staining. The functions of TECs in adhesion and uptake of acetylated low-density lipoprotein were observed in vitro. Results showed that IFNalpha effectively inhibited HCC tumor growth, with decreased microvessel density, increased apoptosis in TECs and normalized tumor blood vessels. cDNA microarray analysis revealed differential gene expression patterns in TECs under the treatment of IFNalpha. The cell-cell contact distribution of VE-Cadherin and uptake of acetylated low-density lipoprotein were significantly inhibited by IFNalpha in cultivated TECs. These results suggest that IFNalpha may induce apoptosis and interfere with hemophilic adhesion of TECs. The changes of gene expression in TECs contribute essentially to its effect of anti-angiogenesis and the subsequent inhibition of tumor progression.
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PMID:Interferon alpha inhibits hepatocellular carcinoma growth through inducing apoptosis and interfering with adhesion of tumor endothelial cells. 1982 91

Gonadotropin-releasing hormone (GnRH) receptor expression is often elevated in ovarian cancer, but its potential role in ovarian cancer metastasis has just begun to be revealed. Cadherin switching is a crucial step during tumorigenesis, particularly in metastasis. Here, we showed that GnRH is an inducer of E- to P-cadherin switching, which is reminiscent of that seen during ovarian tumor progression. Overexpression of P-cadherin significantly enhanced, whereas knockdown of P-cadherin reduced migration and invasion regardless of E-cadherin expression, suggesting that inappropriate expression of P-cadherin contributes to the invasive phenotype. These effects of P-cadherin were mediated by activation of the Rho GTPases, Rac1, and Cdc42, through accumulation of p120 catenin (p120(ctn)) in the cytoplasm. The use of p120(ctn) small interfering RNA or chimeric cadherin construct to inhibit p120(ctn) expression and cytoplasmic localization, respectively, resulted in significant inhibition of cell migration and invasion, with a concomitant reduction in Rac1 and Cdc42 activation, confirming that the effect was p120(ctn) specific. Similarly, the migratory/invasive phenotype could be reversed by expression of dominant-negative Rac1 and Cdc42. These results identify for the first time cadherin switching and p120(ctn) signaling as important targets of GnRH function and as novel mediators of invasiveness and tumor progression in ovarian cancer.
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PMID:Cadherin switching and activation of p120 catenin signaling are mediators of gonadotropin-releasing hormone to promote tumor cell migration and invasion in ovarian cancer. 2011 84

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