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: UNIPROT:B0FTZ7 (catenin)
18,795 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The p120cas gene encodes a protein tyrosine kinase substrate that associates with the cell-cell adhesion protein complex containing E-cadherin and its cytoplasmic cofactors alpha-catenin, beta-catenin, and plakoglobin. Like other components of the cadherin/catenin complex, defects in p120cas may contribute to cell malignancy. We have determined the chromosomal location of the p120cas gene in human and mouse using fluorescence in situ hybridization and interspecific backcross analysis, respectively. The human p120cas gene (CTNND) is localized immediately adjacent to the centromere on the long arm of chromosome 11 in band 11q11. The murine p120cas gene (Catns) was assigned to the middle of chromosome 2. Neither locus is currently known to be associated with disease or malignancy.
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PMID:The gene encoding p120cas, a novel catenin, localizes on human chromosome 11q11 (CTNND) and mouse chromosome 2 (Catns). 880 91

Cadherins are calcium-dependent cell adhesion molecules that play fundamental roles in embryonic development, tissue morphogenesis, and cancer. A prerequisite for their function is association with the actin cytoskeleton via the catenins. Tyrosine phosphorylation of beta-catenin, which correlates with a reduction in cadherin-dependent cell adhesion, may provide cells with a mechanism to regulate cadherin activity. Here we report that beta-catenin immune precipitates from PC12 cells contain tyrosine phosphatase activity which dephosphorylates beta-catenin in vitro. In addition, we show that a member of the leukocyte antigen-related protein (LAR)-related transmembrane tyrosine phosphatase family (LAR-PTP) associates with the cadherin-catenin complex. This association required the amino-terminal domain of beta-catenin but does not require the armadillo repeats, which mediate association with cadherins. The interaction also is detected in PC9 cells, which lack alpha-catenin. Thus, the association is not mediated by alpha-catenin or by cadherins. Interestingly, LAR-PTPs are phosphorylated on tyrosine in a TrkA-dependent manner, and their association with the cadherin-catenin complex is reduced in cells treated with NGF. We propose that changes in tyrosine phosphorylation of beta-catenin mediated by TrkA and LAR-PTPs control cadherin adhesive function during processes such as neurite outgrowth.
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PMID:Association between a transmembrane protein tyrosine phosphatase and the cadherin-catenin complex. 883 Jul 79

Invasion is the cause of cancer malignancy. Invasion results from the cross-talk between cancer cells and host cells, building molecular invasion-promoter and invasion-suppressor complexes. The E-cadherin/catenin invasion-suppressor complex is regulated multifactorially, at multiple levels and sometimes in a reversible way. Mutations in the E-cadherin gene combined with loss of the wild type allele, causing irreversible downregulation, has been demonstrated only in a minority of human cancers. Posttranslational and reversible downregulation has been ascribed to tyrosine phosphorylation of beta-catenin. Phosphorylation is also implicated in transmembrane receptor signal transduction through the E-cadherin/catenin complex. E-cadherin interacts with E-cadherin on another cell through a dimeric adhesion zipper, involving the histidine-alanine-valine (HAV) sequence of the first extracellular domains. This is the major extracellular like of the E-cadherin/catenin complex, though not the only one. Intracellularly, the list of proteins that bind to or signal through the complex or through one or more of its elements is steadily growing. Extrinsic factors may influence the complex. At least in vitro, insulin-like growth factor-I, retinoic acid, tangeretin and tamoxifen were shown to upregulate the functions of the E-cadherin/catenin complex including inhibition of invasion.
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PMID:Regulation of the invasion suppressor function of the cadherin/catenin complex. 888 Aug 70

Recent data suggest that p120-catenin plays a role in the regulation of functionality of E-cadherin, a protein essential for the establishment and maintenance of cell-cell contacts. Since dysfunction of intercellular adhesiveness is an alteration frequently observed in colon cancer we have studied the expression and distribution of p120-catenin in human colorectal tumors. In normal colon, p120-catenin was observed in the crypt and surface epithelium; the cells showed reactivity both in the membrane and in the cytosol. Thirteen primary tumors were examined for p120-catenin expression: they were graded as uniformly positives (+) (4); heterogeneous (+/-) (6), with a diminished expression, detected mainly in the cytosol; and negatives (-) (3). Although the number of tumors was low, the reduction in p120-catenin correlated with a larger size of the tumors (p = 0.038). Association of p120-catenin to the cytoskeleton was also determined in 5 tumors by detergent extraction and Western blot; this analysis shows that lack of reactivity in the membrane was accompanied by absence of p120-catenin in the cytoskeleton-associated fraction. Analysis of E-cadherin was performed in order to compare the distribution of this protein and p120-catenin. Although no complete correlation was found between the expression of both proteins (p = 0.077), our results showed that alterations in the level or distribution of p120-catenin were accompanied by lack of E-cadherin reactivity in the membrane, whereas absence of p120-catenin in the cytoskeleton fraction was associated with important decreases in the amount of E-cadherin in this same fraction. These results show that alterations in p120-catenin levels are a common event in colorectal tumors, and suggest that the distribution of this protein and E-cadherin is coordinately regulated.
Int J Cancer 1996 Sep 27
PMID:p120-catenin expression in human colorectal cancer. 889 33

The human papillomavirus type 16 (HPV-16), the type most often associated with cervical cancer, immortalizes primary keratinocytes and inhibits serum/calcium-stimulated differentiation in culture. In this study, we have used a model of keratinocyte immortalization based upon HPV-16 to analyze perturbation of function and expression of E-cadherin, a Ca(2+)-dependent cell-cell adhesion molecule expressed by normal keratinocytes, and its associated proteins. An immortalized keratinocyte cell line generated by cotransfection with HPV-16 E6 and E7 showed decreased membrane E-cadherin expression and redistribution of alpha-, beta-, and gamma-catenin from the undercoat membrane to the cytoplasm. No changes in the level of expression were seen. Selection of the immortalized keratinocyte cell line for resistance to differentiation generated a more transformed cell line with an invasive phenotype, down-regulated E-cadherin and alpha-catenin, and up-regulated the epidermal growth factor receptor (EGFr). Transfection of an E-cadherin expression construct into the differentiation-resistant cell line restored membrane-bound E-cadherin and catenin expression, down-regulated the EGFr, and reversed the invasive phenotype. These results indicate that overexpression of the EGFr correlates with perturbation of the E-cadherin/catenin complex seen in the HPV-16 E6- and E7-transfected keratinocytes and may underlie a functional interaction between growth-regulatory factors and adhesion molecules (E-cadherin/catenin).
Cancer Res 1996 Nov 15
PMID:E-cadherin transfection down-regulates the epidermal growth factor receptor and reverses the invasive phenotype of human papilloma virus-transfected keratinocytes. 891 70

The invasion-suppressor molecule E-cadherin (E-CAD) can be regulated at multiple levels: synthesis, processing and stability of mRNA; synthesis, processing and stability of protein; localization and posttranslational modification of protein; binding to catenins (E-CAD-associated proteins); and size and charge of cell surface glycosaminoglycans. Loss of E-CAD antigen and of E-CAD function in vivo has been observed with cell lines that homogeneously expressed functional E-CAD in vitro. These observations led to the idea that factors in the host may downmodulate E-CAD on the cancer cells, thereby promoting cell invasion. Nude mouse cancers that were homogeneously E-CAD-positive and noninvasive in vitro, formed by epithelioid MDCK or NMuMG cells, stained heterogeneously for E-CAD; such cancers were invasive and metastatic. The in vivo downmodulation appeared to be transient. Ex vivo cultures from primary cancers, as well as from metastases, produced homogeneously E-CAD-positive and noninvasive cells. Downmodulation did not occur when cells were micro-encapsulated and then implanted in the mouse, suggesting a role for immediate cancer cell-host cell contact. Similar in vitro/in vivo/ex vivo experiments with mouse MO4 fibrosarcoma cells, transfected with E-CAD cDNA under the control of a b-actin promotor, showed downregulation at the transcriptional or mRNA stability level. This downregulation was rapidly reversible upon ex vivo culture of the tumor cells. TGF-bl and IGF-I were found, respectively, to downregulate and upregulate the expression or the function of E-CAD. We speculate that IGF-1 restores the function of E-CAD through interaction of the IGF-I tyrosine kinase receptor with the catenin-actin cytoskeletal complex. In human cancers, immunohistochemistry has revealed changes in E-cadherin that agree with the experimental data on transient downmodulation of the invasion-suppressor function of E-cadherin by host factors.
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PMID:Downregulation in vivo of the invasion-suppressor molecule E-cadherin in experimental and clinical cancer. 898 64

Tumour angiogenesis is an important prognostic factor in non-small cell lung cancer. Recently, EGFR and c-erbB-2 protein was found to regulate cell adhesion and the invasive growth of cancer through its association with the cadherin-catenin complex. The role of c-erbB-2 protein in cell migration has been also reported. In this study we investigate the combined role of tumoral neoangiogenesis and c-erbB-2/EGFR expression in the metastatic behaviour and prognosis of operable non-small cell lung cancer. 107 tumour samples from patients suffering from operable non small cell lung cancer were examined. EGFR and c-erbB-2 were not correlated with each other. C-erbB-2 expression was associated with low angiogenesis, approaching statistical significance in adenocarcinomas (p = 0.08). The absence of expression of both c-erbB-2 and EGFR oncogenes in tumours with high angiogenesis, was most frequently observed in node negative cases (p = 0.04). C-erbB-2 overexpression defined a subgroup of node negative patients with low angiogenesis and prognosis similar to patients with tumours bearing high angiogenesis. These findings support the hypothesis that expression of the erb genes is a mechanism activated in non-small cell lung cancer to enable cancer cell migration. This pathway seems to be activated mainly in tumours with poor vasculature presumably lading to an unfavourable intratumoral nutritional and oxygen ambience.
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PMID:Non-small cell lung cancer: c-erbB-2 overexpression correlates with low angiogenesis and poor prognosis. 904 64

E-Cadherin has been shown to be an invasion tumor suppressor gene, but few epidemiological studies have revealed relationships between loss of E-cadherin expression and invasive tumor growth and/or metastasis. The adhesive function of E-cadherin is dependent on the integrity of the catenin components which link E-cadherin to the actin filaments. In order to achieve a better correlation between the loss of cell adhesion and metastasis in cancer, we decided to investigate both E-cadherin and the catenins. 157 archival primary mammary carcinomas were immunohistochemically studied using antibodies against E-cadherin, alpha-, beta- and gamma-catenin. The following results were obtained: (a) Independent of the presence of E-cadherin, loss of expression of one or multiple catenins was noted; (b) loss of E-cadherin and alpha-catenin expression was more pronounced in lobular-type than ductal-type carcinomas; c) axillary lymph node metastases were completely lacking only in the group where expression of E-cadherin, alpha- and beta- catenin was preserved: d) no correlation between expression of c-erbB-2 and E-cadherin or one of the catenins was found. The results demonstrate for the first time that consideration of both the expression of E-cadherin and of the three catenins is useful in evaluation of the metastatic potential of mammary carcinomas.
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PMID:Expression of E-cadherin and catenins in invasive mammary carcinomas. 906 80

Alterations in the E-cadherin-mediated cell-cell adhesion pathway are commonly observed in urologic malignancies. This issue has been addressed most thoroughly in prostate cancer. Whereas both cadherin and catenin dysfunction have been seen in human prostate cancers, only down-regulation of E-cadherin has been shown for bladder cancer and renal-cell carcinoma. Although studies in bladder cancer and renal-cell carcinoma are less mature than studies in prostate cancer, they support the hypothesis that immunostaining for E-cadherin may be of significance for both diagnostic and prognostic purposes. Finally, the E-cadherin-mediated cell-cell adhesion pathway may represent a novel chemotherapeutic target for bladder cancer, prostate cancer, and renal-cell carcinoma. Obviously, more work lies ahead to translate these important observations from the bench to the bedside.
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PMID:The E-cadherin cell-cell adhesion pathway in urologic malignancies. 911 56

Epithelial cells are the most important cell type in the development of human malignancies. More than 90% of all malignant tumors are carcinomas, and thus of epithelial origin. Aberrant growth and the ability to invade the underlying tissues are intrinsic properties of the fatally altered cells. Multiple genetic alterations that can influence growth and genetic stability of the carcinoma cells have been characterised during tumor progression. Loss of epithelial morphology and the acquisition of mesenchymal characteristics are typical for carcinoma cells late in tumor progression and correlate with metastatic potential. In vitro, epithelial-mesenchymal transitions can be induced by interference with the integrity of the adherens junction, by signalling via tyrosine kinases, and by oncogene expression. In carcinoma cells, loss or downregulation of E-cadherin expression are frequently observed in carcinomas, and correlate with the malignancy of the tumor. In general, this change in expression is regulated at the transcriptional level. However, tumor types or cell lines exist which show mesenchymal characteristics but nevertheless express E-cadherin protein or mRNA. A more-detailed analysis demonstrated that other mechanisms that interfere with E-cadherin-mediated cell adhesion can be operative. Mutations in the E-cadherin gene and loss or mutation of the second, intact copy as well as mutation in the catenin genes, which encode proteins that interact with the cytoplasmic portion of E-cadherin, can be observed. In addition, transient or unregulated phosphorylation by receptor tyrosine kinases or oncogenic tyrosine kinases, respectively, can interfere with the epithelial morphology and induce a mesenchymal conversion. Since tyrosine phosphorylation of beta-catenin correlates with the epithelial-mesenchymal transition that is observed, E-cadherin-mediated cell adhesion might be modulated by such a mechanism. Interestingly, the same molecules implicated in the control of malignant properties turn out to play fundamental roles in the control of normal epithelial growth, differentiation and morphogenesis.
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PMID:Epithelial-mesenchymal transitions in cancer progression. 912 38


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