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)

Cadherins are transmembrane cell-cell adhesion molecules which are connected to the cytoskeleton by association with the cytoplasmic proteins, alpha-, beta-, and, gamma-catenin (plakoglobin). Beta-catenin has an additional role in the wnt signal transduction pathway in which it transmitts signals to the cell nucleus in complexes with transcription factors of the LEF-1/TCF family. The cell adhesion function of the epithelial E-cadherin is frequently disturbed in carcinomas either by downregulation or by mutation of the E-cadherin/catenin genes. The signaling function of beta-catenin is activated in tumors by mutations of beta-catenin or of the tumor suppressor gene product APC. In this review I will give an introduction to the structure and function of the cadherin/catenin complex and summarize findings which support a decisive role of these components in the development of cancer.
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PMID:Cadherins and catenins: role in signal transduction and tumor progression. 1050 43

E-cadherin, a calcium-dependent cell-cell adhesion molecule, is expressed in highly specific spatiotemporal patterns throughout metazoan development, notably at sites of embryonic induction. E-cadherin also plays a critical role in regulating cell motility/adhesion, cell proliferation, and apoptosis. We have used the continuously erupting rat incisor as a system for examining the expression of E-cadherin and the associated catenins [alpha-, beta-, gamma-catenin (plakoglobin) and p120(ctn)] during amelogenesis. Using immunhistochemical techniques, we observed expression of alpha-catenin and gamma-catenin in ameloblasts throughout amelogenesis. In contrast, expression of E-cadherin, beta-catenin, and p120(ctn) was strong in presecretory, transitional, and reduced stage ameloblasts (Stages I, III, and V) but was dramatically lower in secretory and maturation stage ameloblasts (Stages II and IV). This expression alternates with the expression pattern we previously reported for the adenomatous polyposis coli protein (APC), a tumor suppressor that competes with E-cadherin for binding to beta-catenin. We suggest that alternate expression of APC and the cadherin-catenin complex is critical for the alterations in cell-cell adhesion and other differentiated cellular characteristics, such as cytoskeletal alterations, that are required for the formation of enamel by ameloblasts.
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PMID:The cadherin-catenin complex is expressed alternately with the adenomatous polyposis coli protein during rat incisor amelogenesis. 1068 93

Aberrant morphogenesis of transgenic Xenopus laevis 5-day embryos carrying Rous sarcoma virus LTR in their DNA and expressing a high level of c-Src protein kinase was found to be accompanied with a profound depression in the level of cadherins and alpha-, beta-, and gamma-(plakoglobin) catenins in their tissues, as revealed by immunohistochemical analysis. Simultaneously, an increased level of phosphotyrosine staining was detected. However, an analogous increase in the level of phosphotyrosine immunostaining and a slightly higher level of Src were also detected in tissues of originally defective but later spontaneously repaired frog embryos that displayed essentially normal patterns of staining for cadherins and catenins. Our results provide evidence that the defective morphogenesis of frog embryos expressing a high level of c-Src is characterized by the loss of the cadherin-catenin complexes. It appears that to induce frog morphogenetic malformations, the c-Src overproduction and the loss of cadherins-catenins are simultaneously required. Phosphorylation is not likely to be the cause of cadherin and catenin disappearance from the tissues of strongly aberrant frog embryos.
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PMID:Depression in the level of cadherin and alpha-, beta-, gamma-catenins in transgenic Xenopus laevis highly expressing c-Src. 1073 Aug 76

Members of the cadherin family of cell adhesion molecules participate in calcium-dependent cell-cell adhesions that are necessary for the cell sorting events that regulate early developmental processes. Although individual cadherin molecules have been shown to participate in tissue histogenesis, the regulation of function of these receptors in cell differentiation has been more difficult to identify. We have determined that N-cadherin linkage to the cytoskeleton is correlated with lens cell differentiation in vivo. Through the use of a chick embryo lens culture system that mimics differentiation in vivo, we have determined that N-cadherin linkage to the cytoskeleton is altered and lens differentiation is blocked by function-blocking antibodies to N-cadherin. In the presence of the N-cadherin function-blocking antibody, NCD-2, both N-cadherin and filamentous actin are prevented from organizing at the cortical membranes. This correlates with an inhibition of lens morphogenesis and differentiation. These results are paralleled by changes in the expression of the molecular components of the cadherin-catenin complex and their linkage to the actin cytoskeleton. In the presence of NCD-2, expression of N-cadherin, alpha-catenin, and beta-catenin is inhibited and their association with the cytoskeleton blocked. Overall cadherin expression, however, remains unchanged as demonstrated by studies with a pan-cadherin antibody. This is accompanied by an increase in expression of the cadherin cytoskeletal protein plakoglobin. Although the cells have tried to compensate for the loss of N-cadherin by up-regulation of another cadherin(s) and plakoglobin, this is unable to compensate for N-cadherin function. The data strongly suggest that N-cadherin and its associated cytoskeleton play an important role in the differentiation process that leads to the formation of the crystalline lens.
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PMID:N-cadherin function is required for differentiation-dependent cytoskeletal reorganization in lens cells in vitro. 1073 70

beta-Catenin and plakoglobin are highly homologous components of cell-cell adherens junctions linking cadherin receptors to the actin cytoskeleton. beta-Catenin, in addition, activates transcription by forming a complex with LEF/TCF family transcription factors in the nucleus. Plakoglobin can also bind to LEF-1 and, when overexpressed in mammalian cells, enhances LEF-1-directed transcription. Plakoglobin overexpression, however, results in the elevation and nuclear translocation of endogenous beta-catenin. We show here, by DNA mobility shift analysis, that the formation of a plakoglobin-LEF/TCF-DNA complex in vitro is very inefficient compared to a complex containing beta-catenin-LEF-DNA. Moreover, in plakoglobin-transfected cells plakoglobin-LEF/TCF-DNA complexes were not formed; rather, the endogenous beta-catenin, whose level is elevated by plakoglobin transfection, formed a beta-catenin-LEF-DNA complex. Removal of the N- and C-terminal domains of both beta-catenin and plakoglobin (leaving the armadillo repeat domain intact) induced plakoglobin-LEF-DNA complex formation and also enhanced beta-catenin-LEF-DNA complexing, both with in vitro-translated components and in transfected cells. Transfection with these truncated catenins increased endogenous beta-catenin levels, but the truncated catenins acted as dominant-negative inhibitors of beta-catenin-driven transcription by forming transcriptionally inactive complexes with LEF-1. When these catenin mutants were prevented from entering the nucleus, by their fusion to the connexin transmembrane domain, they indirectly activated transcription by increasing endogenous beta-catenin levels. These results suggest that overexpression of plakoglobin does not directly activate transcription and that formation of catenin-LEF-DNA complexes is negatively regulated by the catenin N- and C-terminal domains.
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PMID:Differential mechanisms of LEF/TCF family-dependent transcriptional activation by beta-catenin and plakoglobin. 1082 88

Tight and adherens junctions are major determinants of endothelial integrity. Molecules present therein have been implicated in vascular permeability, stability of junctions, angiogenesis and intracellular signalling. Using immunofluorescence and confocal scanning microscopy, the adherens junctions (AJs) in human placental vessels were found to contain the entire cadherin-catenin complex predicted from in vitro studies. Vascular endothelial cadherin (VE-cadherin) clusters were co-localized with beta-catenin, an important signal transduction ligand, and with alpha-catenin, which is thought to link the complex to the peri-junctional actin. Antibodies to plakoglobin, a molecule shown to be a component of stable adherens junctions, revealed immunoreactivity in clefts of stromal villous vessels, but weak or negative immunoreactivity in intermediate and terminal villi. Tight junctional molecules demonstrated a differential surface expression. Within the same villous tree, arteries, veins and arterioles contained occludin but the exchange vessels in terminal villi were immunonegative. ZO-1, however, was present throughout. Ultrastructurally, there were no differences in frequency, position or dimension of tight junctions in these vessels. They showed a consistent 4 nm separation between outer membrane leaflets regardless of their location in the vascular tree. Occludin is not necessary for formation of tight junctions in the placenta; it may have an accessory role providing stability or added adhesiveness to tight junctions of large vessels. Its absence in terminal villous microvessels, along with the weak plakoglobin immunoreactivity in AJs, suggest that the junctions here are less stable. This may allow the increased plasticity necessary in terminal villi for continual growth, proliferation and solute exchange.
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PMID:Molecular organization of tight and adherens junctions in the human placental vascular tree. 1094 Feb 5

Beta-catenin can play different roles in the cell, including one as a structural protein at cell-cell adherens junctions and another as a transcriptional activator mediating Wnt signal transduction. Plakoglobin (gamma)-catenin), a close homolog of beta-catenin, shares with beta-catenin common protein partners and can fulfill some of the same functions. The complexing of catenins with various protein partners is regulated by phosphorylation and by intramolecular interactions. The competition between different catenin partners for binding to catenins mediates the cross-talk between cadherin-based adhesion, catenin-dependent transcription and Wnt signaling. Although plakoglobin differs from beta-catenin in its functions and is unable to compensate for defects in Wnt signaling resulting from lack of beta-catenin, recent evidence suggests that plakoglobin plays a unique role in Wnt signaling that is different from that of beta-catenin. The functional difference between catenins is reflected in their differential involvement in embryonic development and cancer progression.
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PMID:Plakoglobin and beta-catenin: protein interactions, regulation and biological roles. 1095 12

The poster provides an overview of the cadherin superfamily, depicting representative molecules for several subfamilies, and displaying the plethora of molecular arrangements characteristic of these molecules (see Commentary by Angst, Marcozzi and Magee on p. 629). Classical cadherins form lateral dimers and typically mediate homophilic adhesion between neighbouring cells and linkage to the actin filament network via their cytoplasmic binding partners *-catenin, &bgr;-catenin and vinculin. Desmosomal cadherins, and VE-cadherin, interact with armadillo family members plakoglobin and/or plakophilins, as well as desmoplakins, to link to the intermediate filament system. Desmosomal cadherin lateral and head-to-head interactions may be homophilic or heterophilic. The adhesive and lateral interactions of other cadherins are less well understood. Very large cadherins, such as FAT family members, may not be involved in adhesion at all, but rather may have a repulsive or sensing role.
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PMID:The cadherin superfamily. 1117 65

The extracellular matrix plays an important role in regulation of epithelial development and organization. To determine more precisely the function of extracellular matrix in this process, the initial steps in collagen-mediated formation of epithelial tubules were studied using a model cell culture system. Previous studies have demonstrated that incubation of Madin-Darby canine kidney (MDCK) epithelial cells with a collagen gel overlay induces (beta)1 integrin-regulated epithelial remodeling accompanied by extensive cell rearrangements and formation of epithelial tubules. During epithelial remodeling there was extensive disruption of the epithelial junctional complex. Progressive opening of tight junctions was observed over 8 hours using transepithelial resistance measurements and immunofluorescence microscopy demonstrated that tight and adherens junction proteins were dispersed throughout the apical and basolateral membranes. Junction complex disruption allowed the formation of apical cell extensions and subsequent migration of selected cell sheets from the epithelial monolayer. Confocal microscopy demonstrated the presence of adherens junction (E-cadherin, (alpha)-catenin, (beta)-catenin, plakoglobin) and desmosomal (desmoplakin-1/2, plakoglobin) proteins on, and within, cell extensions demonstrating that cell junctions had undergone considerable disassembly. However, groups of cell extensions appeared to be associated by E-cadherin/catenin-mediated interactions. Association of E-cadherin/catenin complexes with the epithelial cytoskeleton was analyzed by differential detergent extraction. SDS-PAGE and immunoblot analysis demonstrated that adherens junction proteins were primarily cytoskeleton-associated in control cells. During integrin-regulated remodeling, there was a progressive reduction in the interaction of adherens junction proteins with the cytoskeleton suggesting that they play an important role in the maintenance of epithelial integrity. Since loss of transepithelial electrical resistance and disruption of junctional complexes were inhibited by an antifunctional integrin antibody, we propose that activation of integrin signaling pathways regulate junctional complex stability, cell-cell interactions and cell migration. These observations provide evidence that integrin-regulated MDCK epithelial tubule formation can serve as a model system for studying rearrangements of epithelial sheets which occur during development.
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PMID:Integrin regulation of cell-cell adhesion during epithelial tubule formation. 1118 Nov 77

Alpha-catenin, an intracellular protein, associates with the COOH-terminal region of cadherin cell adhesion molecules through interactions with either beta-catenin or gamma-catenin (plakoglobin). The full activity of cadherins requires a linkage to the actin cytoskeleton mediated by catenins. We transfected alpha-catenin-deficient colon carcinoma cells with a series of alpha-catenin constructs to determine that alpha-catenin expression increases the resistance to apoptosis induced by sphingosine. Two groups of constructs, containing deletions in either the middle segment of the molecule or the COOH terminus, induced morphological changes, cell compaction, and decreases in cell death. In alpha-catenin-expressing cells, inhibition of cadherin cell adhesion by treatment with anti-E-cadherin antibodies did not decrease the cells viability. alpha-Catenin expression partially suppressed the downregulation of Bcl-xL and the activation of caspase 3. Expression of p27kip1 protein, an inhibitor of cyclin-dependent kinases, was increased by alpha-catenin expression in low density cell cultures. The increased levels of p27kip1 correlated with both increased resistance to cell death and morphological changes in transfectants containing deletion mutants. Transfection-mediated upregulation of p27kip1 decreases sphingosine-induced cell death in alpha-catenin-deficient cells. We postulate that alpha-catenin mediates transduction of signals from the cadherin-catenin complex to regulate the apoptotic cascade via p27kip1.
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PMID:Expression of alpha-catenin in alpha-catenin-deficient cells increases resistance to sphingosine-induced apoptosis. 1148 17


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