Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:B0FTZ7 (catenin)
 18,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genetic characteristics of scirrhous gastric carcinomas are overviewed. Scirrhous carcinomas of the stomach frequently show amplification of c-met and K-sam oncogenes as well as overexpression of 6.0 kb c-met abnormal transcript. For the formation of productive fibrosis and the diffuse infiltrative growth pattern of this malignancy, the essential factors would be not only the loss of cell adhesion molecule function through depressed expression or loss of cadherin or catenin, but also the synchronous overexpression of growth factors from the cancer cells including TGF-beta, PDGF, IGF-II and basic FGF with intimate cancer-stromal interaction through paracrine loop of IL-1 alpha/HGF system.
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PMID:[Genetic characteristics of scirrhous gastric carcinomas]. 794 79

Celiac disease is characterized by a chronic immune response to dietary gluten, in which T cell responses result in elevated mucosal levels of tumor necrosis factor (TNF)-alpha, interleukin (IL)-1, interferon (IFN)-gamma, and transforming growth factor (TGF)-beta, which induce profound mucosal remodeling associated with increased enterocyte proliferation, apoptosis, and migration. Reduced intestinal expression of the morphoregulatory cell adhesion molecule E-cadherin, which forms complexes with beta-catenin, can increase enterocyte proliferation and migration. However, its mechanism of action in gastrointestinal inflammatory conditions and any involvement in celiac disease is unknown. In this study, we describe changes in E-cadherin and beta-catenin expression in celiac disease tissue and determine the effect of cytokines on their expression in an in vitro model. We assessed E-cadherin and beta-catenin expression in intestinal biopsies from 24 patients with celiac disease, 12 patients with treated celiac disease, and 10 healthy patients by immunohistochemistry, Western blotting, and confocal microscopy. Using Caco-2 cells, we examined the effect of TNF-alpha, IL-1, IFN-gamma, and TGF-beta on E-cadherin expression. E-cadherin transcription was assessed in both intestinal biopsies and Caco-2 cells by in situ hybridization and RT-PCR, respectively. A marked reduction in protein expression of E-cadherin and beta-catenin that returns to normal levels after treatment was observed in celiac disease; this reduction was associated with reduced levels of E-cadherin mRNA. E-cadherin expression in Caco-2 cells was significantly reduced after TNF-alpha, IL-1, and IFN-gamma stimulation. The effect of TNF-alpha on E-cadherin expression was maximal after stimulation for 48 hours and also induced modest reductions in beta-catenin expression. The action of TNF-alpha on E-cadherin was reversible and was shown to act at the transcriptional level. These results demonstrate the novel findings that E-cadherin and beta-catenin expression are reversibly down-regulated in celiac disease and that such changes in epithelial cadherin/catenin complexes may be mediated by cytokines acting on cadherin transcription.
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PMID:Reduced cadherin/catenin complex expression in celiac disease can be reproduced in vitro by cytokine stimulation. 1061

In recent years developmental biology has contributed a great deal to cancer research. This is in part because both fields address the question of how genes control the three-dimensional organisation of tissues, and how mutation of genes alters this. But also in recent years, the discovery that signalling pathways are conserved from worms to man, combined with the power of developmental biology's model organisms, principally Drosophila and C. elegans, to reveal signalling pathways that control tissue growth and organisation, has had a huge impact. Examples of this are the subject of the reviews in this issue, including the EGF-receptor, Wnt/APC/catenin, TGF-beta/Smad and hedgehog/patched/smoothened pathways, all of which were discovered and/or pieced together in model organisms, and all of which are disrupted by mutation in human cancer. Other topics considered are the control and execution of apoptosis; the search for tumour-suppressor-like genes in Drosophila; and genes of the Polycomb and Trithorax Groups that regulate the commitment of cells to patterns of differentiation, and that are among the targets for chromosome translocations. These stories illustrate how developmental biology has shown that there are many more signalling pathways relevant to neoplasia than the receptor tyrosine kinase pathways that first dominated the field; and that the signalling is more than just mitogenic or anti-mitogenic, and should be viewed as providing cells with information about their position and neighbours, that determines their role, differentiation and behaviour.
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PMID:The impact of developmental biology on cancer research: an overview. 1072 82

Transforming growth factor beta1 (TGF-beta1) acts as a tumor suppressor at early stages of carcinogenesis, however, it has also been suggested to promote tumor progression at late stages. To determine at which stage and by what mechanisms this functional switch occurs, we have generated gene-switch-TGF-beta1 mice in which TGF-beta1 transgene expression can be induced in skin tumors at specific stages. These mice were exposed to a chemical carcinogenesis protocol, which allows tumorigenesis to develop in progressive stages from benign papillomas to malignant carcinomas. Remarkably, TGF-beta1 transgene induction in papillomas rapidly induced metastasis. This function is in sharp contrast to its tumor suppressive effect when TGF-beta1 transgene expression was induced early in the protocol. Transgenic papillomas exhibited down-regulation of TGF-beta receptors and their signal transducer, the Smads, and loss of the invasion suppressor E-cadherin/catenin complex in the cell membrane. These molecules were lost only in malignant carcinomas in control mice at a much later stage. Furthermore, transgenic papillomas exhibited elevated expression of matrix metalloproteinases and increased angiogenesis. Our study suggests that TGF-beta1 overexpression may directly induce tumor metastasis by initiating events necessary for invasion. Down-regulation of TGF-beta signaling components in tumor epithelia selectively abolishes growth inhibition, thus, switching the role of TGF-beta1 to a metastasis promoter.
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PMID:Inducible expression of transforming growth factor beta1 in papillomas causes rapid metastasis. 1160 77

Hepatocellular carcinoma (HCC) accounts for 80-90% of liver cancers and is one of the most frequent carcinomas throughout the world. The disease is more prevalent in parts of Africa and Asia than in North and South America and Europe, with a strong etiological association with viral hepatitis, hemochromatosis, known liver (hepatic) carcinogens, and toxins (mycotoxins). Clinical and molecular medical analyses have yielded a considerable amount of information about liver carcinogenesis. Many genes undergo somatic aberrations, with a tendency to cluster at genes involved in cell cycle regulation, in the p53 and Wnt/catenin pathways of signal transduction and cellular adhesion, and in the TGF-beta/IGF axis. Since HCC may arise both in liver cirrhosis and in noncirrhotic liver, one may speculate that different hepatocarcinogenetic pathways exist. Recent results of high-output gene analysis using cDNA microarrays support the idea of different genetic alterations in HCC with or without cirrhosis.
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PMID:Genes involved in hepatocellular carcinoma: deregulation in cell cycling and apoptosis. 1195 13

Inflammatory breast carcinoma (IBC) is characterized by florid tumor emboli within lymphovascular spaces termed lymphovascular invasion (LVI). Using a human-scid model of IBC (MARY-X), we have demonstrated using retrovirally-mediated dominant-negative E-cadherin mutant approaches (H-2K(d)-E-cad), that the tumor cell embolus (IBC spheroid) forms on the basis of an intact and overexpressed E-cadherin/alpha, beta-catenin axis which mediates tumor cell-tumor cell adhesion analogous to the embryonic blastocyst and accounts for the compactness of the embolus. The tumor cell embolus (IBC spheroid), in contrast, fails to bind the surrounding vascular endothelial cells both in vitro and in vivo because of markedly decreased sialyl-Lewis X/A carbohydrate ligand-binding epitopes on its overexpressed MUC1 which are necessary for binding endothelial cell E-selectin. This tumor cell-endothelial cell aversion further contributes to the compactness of the IBC spheroid and its passivity in metastasis dissemination. This passivity is manifested by a dramatic increase in metastatic pulmonary emboli following palpation of the primary tumor. In assessing this passivity of metastatic dissemination, we compared the effects of palpation on MARY-X with the effects of palpation on a derived dominant-negative E-cadherin mutant (H-2K(d)-E-cad), as well as other well known human tumoral xenografts exhibiting no (MCF-7, T47D), low (MDA-MB-231, MDA-MB-468) or high (C8161, M24(met)) levels of spontaneous metastasis but no LVI. Palpation of each xenograft similarly increased intratumoral pressure by 200% (10-->30 mmHg) but dramatically increased the numbers and sizes of pulmonary metastases 10-100-fold (P<0.001) only in MARY-X. The mechanism of this effect was through an immediate post-palpation release of circulating tumor emboli detected 2-3 min after palpation (P<0.01) by human cytokeratin 19 RT-PCR of extracted RNA from 300 microl of murine blood. Although circulating human tumor cell-derived growth factors (IGF-I, IGF-II, TGF-alpha and TGF-beta) and angiogenic factors (VEGF and bFGF) were detected by ELISA in murine serum of MARY-X, palpation did not further increase the circulating levels of these factors (P>0.1). Our findings support the cooperative role of E-cadherin and sialyl-Lewis X/A-deficient MUC1 in the passive dissemination of tumor emboli in IBC.
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PMID:Cooperative role of E-cadherin and sialyl-Lewis X/A-deficient MUC1 in the passive dissemination of tumor emboli in inflammatory breast carcinoma. 1203 65

Recent studies have shown that transforming growth factor (TGF)-beta3 regulates blood-testis barrier (BTB) dynamics in vivo, plausibly by determining the steady-state levels of occludin and zonula occludens-1 (ZO-1) at the BTB site via the p38 MAP kinase signaling pathway. Since BTB is composed of coexisting TJs and basal ectoplasmic specializations [ES, a testis-specific adherens junction (AJ) type] in the seminiferous epithelium of the rat testis, we sought to examine if TGF-beta3 would also regulate anchoring junction dynamics. Using an in vivo model in which rats were treated with AF-2364 [1-(2,4-dichlorobenzyl)-indazole-3-carbohydrazide] to perturb Sertoli-germ cell AJs without affecting the integrity of TJs at the BTB, it was noted that the event of germ cell loss from the epithelium was associated with a transient surge in TGF-beta3. Furthermore, it was also associated with a surge in the protein levels of Ras, p-ERK, and the intrinsic activity of ERK, illustrating TGF-beta3 apparently regulates Sertoli-germ cell ES function via the Ras/MEK/ERK signaling pathway. Indeed, pretreatment of rats with TbetaRII/Fc chimera, a TGF-beta antagonist, or U0126, a specific MEK inhibitor, could significantly delay and partially block the disruptive effects of AF-2364 in depleting germ cells from the epithelium. While the protein levels of the cadherin/catenin complex were significantly induced during AF-2364-mediated germ cell loss, perhaps being used to retain germ cells in the epithelium, this increase failed to reverse the loss of adhesion function between Sertoli and germ cells because of a loss of protein-protein interactions between cadherins and catenins. Collectively, these results illustrate that the testis has a novel mechanism in place in which an agent that primarily disrupts TJs can induce secondary loss of AJ function, leading to germ cell loss from the seminiferous epithelium. Yet an agent that selectively disrupts AJs (e.g., AF-2364) can limit its effects exclusively at the Sertoli-germ cell adhesive site without perturbing the Sertoli-Sertoli TJs.
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PMID:TGF-beta3 regulates anchoring junction dynamics in the seminiferous epithelium of the rat testis via the Ras/ERK signaling pathway: An in vivo study. 1588 76

In the present study, we demonstrated that human skin cancers frequently overexpress TGF-beta1 but exhibit decreased expression of the TGF-beta type II receptor (TGF-(beta)RII). To understand how this combination affects cancer prognosis, we generated a transgenic mouse model that allowed inducible expression of TGF-beta(1) in keratinocytes expressing a dominant negative TGF-(beta)RII (Delta(beta)RII) in the epidermis. Without Delta(beta)RII expression, TGF-beta1 transgene induction in late-stage, chemically induced papillomas failed to inhibit tumor growth but increased metastasis and epithelial-to-mesenchymal transition (EMT), i.e., formation of spindle cell carcinomas. Interestingly, Delta(beta)RII expression abrogated TGF-beta1-mediated EMT and was accompanied by restoration of membrane-associated E-cadherin/catenin complex in TGF-beta1/Delta(beta)RII compound tumors. Furthermore, expression of molecules thought to mediate TGF-beta1-induced EMT was attenuated in TGF-beta1/Delta(beta)RII-transgenic tumors. However, TGF-beta1/Delta(beta)RII-transgenic tumors progressed to metastasis without losing expression of the membrane-associated E-cadherin/catenin complex and at a rate higher than those observed in nontransgenic, TGF-beta1-transgenic, or Delta(beta)RII-transgenic mice. Abrogation of Smad activation by Delta(beta)RII correlated with the blockade of EMT. However, Delta(beta)RII did not alter TGF-beta1-mediated expression of RhoA/Rac and MAPK, which contributed to increased metastasis. Our study provides evidence that TGF-beta1 induces EMT and invasion via distinct mechanisms. TGF-beta1-mediated EMT requires functional TGF-(beta)RII, whereas TGF-beta1-mediated tumor invasion cooperates with reduced TGF-(beta)RII signaling in tumor epithelia.
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PMID:Distinct mechanisms of TGF-beta1-mediated epithelial-to-mesenchymal transition and metastasis during skin carcinogenesis. 1593 46

The proteins SKI and SnoN are implicated in processes as diverse as differentiation, transformation and tumor progression. Until recently, SKI was solely viewed as a nuclear protein with a principal function of inhibiting TGF-beta signaling through its association with the Smad proteins. However, new studies suggest that SKI plays additional roles not only inside but also outside the nucleus. In normal melanocytes and primary non-invasive melanomas, SKI localizes predominantly in the nucleus, whereas in primary invasive melanomas SKI displays both nuclear and cytoplasmic localization. Intriguingly, metastatic melanoma tumors display nuclear and cytoplasmic or predominantly cytoplasmic SKI distribution. Cytoplasmic SKI is functional, as it associates with Smad3 and prevents its nuclear localization mediated by TGF-beta. SKI can also function as a transcriptional activator, targeting the beta -catenin pathway and activating MITF and NrCAM, two proteins involved in survival, migration and invasion. Intriguingly, SKI appears to live a dual life, one as a tumor suppressor and another as a transforming protein. Loss of one copy of mouse ski increases susceptibility to tumorigenesis in mice, whereas its overexpression is associated with cancer progression of human melanoma, esophageal, breast and colon. The molecular reasons for such dramatic change in SKI function appear to result from new acquired activities. In this review, we discuss the mechanisms by which SKI regulates crucial pathways involved in the progression of human malignant melanoma.
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PMID:SKI pathways inducing progression of human melanoma. 1598 36

Smad2 participates in the TGF-beta signaling pathway, where it cooperates with transcription factors to regulate expression of defined genes. The purpose of this study was to investigate the expression pattern of phosphorylated Smad2 (pSmad2) in association with clinicopathological parameters and biological markers of proliferation and invasion. Immunohistochemistry was applied on paraffin-embedded sections from 164 patients with invasive breast carcinomas to detect the expression of the proteins pSmad2, ER, PR, Ki67, topoisomerase IIa, ERK2, catenin-p120, MMP-14 and TIMP-2. pSmad2 protein was detected in the nuclei of the malignant cells (68.1%) and in the tumor fibroblasts (55.2%). Nuclear pSmad2 was inversely correlated with histological grade and LN (p=0.047 and p=0.05) as well as with Ki67 and topoIIa (p=0.003 and p=0.021, respectively). There was also an inverse relation between nuclear pSmad2 and normal immunoexpression of the adhesion molecule catenin-p120 (p=0.028). Both nuclear and stromal pSmad2 were positively correlated with ERK2 of tumor fibroblasts (p=0.008 and p=0.0001, respectively), while stromal pSmad2 was furthermore related to stromal MMP-14 and tumor TIMP-2 (p=0.006 and p=0.022, respectively). Patients with high expression of cancerous pSmad2 tended to have a better prognosis, although statistic significance was never reached. pSmad2 was found to play a dual role, according to its distribution. Nuclear localization was thus found to be related to a less aggressive tumor phenotype, whereas stromal location was associated with an invasive phenotype.
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PMID:Effect of the different phosphorylated Smad2 protein localizations on the invasive breast carcinoma phenotype. 1729 76


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