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 Abl tyrosine kinase plays an important role in axonogenesis. Recent reports indicate that this role involves interaction with several different protein families, including LAR phosphatases, catenin/cadherin cell adhesion complexes, Trio family GEFs, and Ena/VASP family actin regulatory proteins. These findings suggest that Abl and its associated proteins may regulate cell adhesion and actin polymerization, thereby regulating growth cone motility during axonogenesis.
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PMID:From Abl to actin: Abl tyrosine kinase and associated proteins in growth cone motility. 1067 39

Cadherins are transmembrane receptors whose extracellular domain mediates homophilic cell-cell interactions, while their cytoplasmic domain associates with a family of proteins known as catenins. Although the mechanisms that regulate the assembly and functional state of cadherin-catenin complexes are poorly understood, current evidence supports a role for protein tyrosine kinase activity in regulating cell adhesion and migration. Tyrosine phosphorylation of catenins is thought to mediate loss of intercellular adhesion promoted by activation of receptor tyrosine kinases in epithelial cells. Here, we show that activation of ectopically expressed TrkA, the tyrosine kinase receptor for nerve growth factor (NGF), stimulates embryonal carcinoma P19 cells to develop extensive intercellular contacts and to assemble into closely packed clusters. Thus, activation of receptor tyrosine kinases can differentially regulate adhesiveness by cell-type-specific mechanisms. Furthermore, activation of TrkA in P19 and epithelial MDCK cells induces tyrosine phosphorylation of p120(ctn) and of beta-catenin, irrespective of the elicited cellular response. The selective Src tyrosine kinase inhibitor PP2, however, suppresses NGF- or HGF-induced tyrosine phosphorylation of catenins in both P19 and MDCK cells without interfering with the acquisition of a compacted or scattered phenotype. These findings provide a cogent argument for considering that tyrosine phosphorylation of catenins is dispensable for their interaction with cadherins and, ultimately, for the modulation of cadherin-based cell adhesion by receptor tyrosine kinases.
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PMID:Activation of TrkA tyrosine kinase in embryonal carcinoma cells promotes cell compaction, independently of tyrosine phosphorylation of catenins. 1075 Nov 51

RPTPmu is a prototypic receptor-like protein-tyrosine phosphatase (RPTP) that mediates homotypic cell-cell interactions. Intracellularly, RPTPmu consists of a relatively large juxtamembrane region and two phosphatase domains, but little is still known about its substrate(s). Here we show that RPTPmu associates with the catenin p120(ctn), a tyrosine kinase substrate and an interacting partner of cadherins. No interaction is detectable between RPTPmu and beta-catenin. Furthermore, we show that tyrosine-phosphorylated p120(ctn) is dephosphorylated by RPTPmu both in vitro and in intact cells. Complex formation between RPTPmu and p120(ctn) does not require tyrosine phosphorylation of p120(ctn). Mutational analysis reveals that both the juxtamembrane region and the second phosphatase domain of RPTPmu are involved in p120(ctn) binding. The RPTPmu-interacting domain of p120(ctn) maps to its unique N terminus, a region distinct from the cadherin-interacting domain. A mutant form of p120(ctn) that fails to bind cadherins can still associate with RPTPmu. Our findings indicate that RPTPmu interacts with p120(ctn) independently of cadherins, and they suggest that this interaction may serve to control the tyrosine phosphorylation state of p120(ctn) at sites of cell-cell contact.
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PMID:Receptor protein-tyrosine phosphatase RPTPmu binds to and dephosphorylates the catenin p120(ctn). 1075 36

The cadherin-binding catenin p120ctn was originally identified as an Src-tyrosine kinase substrate. More recently, p120ctn has been shown in some cell types to be associated with catenin/cadherin complexes of adherens junctions. To address the question whether p120ctn is restricted to certain cell types or whether it is a general cellular component we investigated tissue distribution of p120ctn by immunohistochemistry and immunoblotting in the rat. We found p120ctn to be widely distributed in several tissues where it is mainly restricted to the plasma membrane. In various epithelia p120ctn was found in association with different adherens junctions such as the zonula adherens and puncta adherentia. In addition, p120ctn was localized along infoldings of the basal cell membrane, most prominently in renal proximal and distal tubules. pl20ctn was not restricted to epithelia. It was also found at intercalated discs of cardiomyocytes. In the nervous system, immunostaining was particularly prominent in areas rich in synapses suggesting that pl20ctn is a component of synaptic adherens junctions as well. By immunoblotting, four different isoforms of pl20ctn could be detected displaying similar electrophoretic mobilities as the isoforms 1A, 1B, 2A, and 2B reported from mice. Whereas all epithelia assayed contained at least two isoforms, testis, heart, brain, and retina contained a single 110-kDa band that corresponds to isoform 1B in mice.
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PMID:The catenin, p120ctn, is a common membrane-associated protein in various epithelial and non-epithelial cells and tissues. 1105 63

Local inflammatory reactions affect the integrity of intestinal epithelial cells, such as E-cadherin-mediated cell-cell interactions. To elucidate this event, we investigated the effects of an inflammatory mediator, leukotriene D(4 )(LTD(4)), on the phosphorylation status and properties of vinculin, a multi-binding protein known to interact with both the E-cadherin-catenin complex and the cytoskeleton. Treatment of an intestinal epithelial cell line with LTD(4 )induced rapid tyrosine phosphorylation of vinculin, which was blocked by the Src family tyrosine kinase inhibitor PP1. Simultaneously, LTD(4) caused an increased association between vinculin and actin, and that association was decreased by PP1. LTD(4) also induced dissociation of vinculin from alpha-catenin without affecting the catenin complex itself. This dissociation was not blocked by PP1 but was mimicked by the protein kinase C (PKC) activator 12-O-tetradecanoylphorbol 13-acetate (TPA). Also, the PKC inhibitor GF109203X abolished both the LTD(4)- and the TPA-induced dissociation of vinculin from alpha-catenin. Furthermore, LTD(4) caused a colocalisation of vinculin with PKC-alpha in focal adhesions. This accumulation of vinculin was blocked by transfection with a dominant negative inhibitor of PKC (PKC regulatory domain) and also by preincubation with either GF109203X or PP1. Thus, various LTD(4)-induced phosphorylations of vinculin affect the release of this protein from catenin complexes and its association with actin, two events that are necessary for accumulation of vinculin in focal adhesions. Functionally this LTD(4)-induced redistribution of vinculin was accompanied by a PKC-dependent upregulation of active beta1 integrins on the cell surface and an enhanced beta1 integrin-dependent adhesion of the cells to collagen IV.
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PMID:Leukotriene D(4) affects localisation of vinculin in intestinal epithelial cells via distinct tyrosine kinase and protein kinase C controlled events. 1132 79

Protein tyrosine phosphorylation is tightly regulated through the actions of both protein tyrosine kinases and protein tyrosine phosphatases. In this study, we demonstrate that protein tyrosine phosphatase inhibition promotes tyrosine phosphorylation of endothelial cell-cell adherens junction proteins, opens an endothelial paracellular pathway, and increases both transendothelial albumin flux and neutrophil migration. Tyrosine phosphatase inhibition with sodium orthovanadate or phenylarsine oxide induced dose- and time-dependent increases in [14C]bovine serum albumin flux across postconfluent bovine pulmonary artery endothelial cell monolayers. These increases in albumin flux were coincident with actin reorganization and intercellular gap formation in both postconfluent monolayers and preformed endothelial cell capillary tubes. Vanadate (25 microM) increased tyrosine phosphorylation of endothelial cell proteins 12-fold within 1 h. Tyrosine phosphorylated proteins were immunolocalized to the intercellular boundaries, and several were identified as the endothelial cell-cell adherens junction proteins, vascular-endothelial cadherin, and beta-, gamma-, and p120-catenin as well as platelet endothelial cell adhesion molecule-1. Of note, these tyrosine phosphorylation events were not associated with disassembly of the adherens junction complex or its uncoupling from the actin cytoskeleton. The dose and time requirements for vanadate-induced increases in phosphorylation were comparable with those defined for increments in transendothelial [14C]albumin flux and neutrophil migration, and pretreatment with the tyrosine kinase inhibitor herbimycin A protected against these effects. These data suggest that protein tyrosine phosphatases and their substrates, which localize to the endothelial cell-cell boundaries, regulate adherens junctional integrity, the movement of macromolecules and cells through the endothelial paracellular pathway, and capillary tube stability.
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PMID:Protein tyrosine phosphatase activity regulates endothelial cell-cell interactions, the paracellular pathway, and capillary tube stability. 1262 37

Invasion causes cancer malignancy. We review recent data about cellular and molecular mechanisms of invasion, focusing on cross-talk between the invaders and the host. Cancer disturbs these cellular activities that maintain multicellular organisms, namely, growth, differentiation, apoptosis, and tissue integrity. Multiple alterations in the genome of cancer cells underlie tumor development. These genetic alterations occur in varying orders; many of them concomitantly influence invasion as well as the other cancer-related cellular activities. Examples discussed are genes encoding elements of the cadherin/catenin complex, the nonreceptor tyrosine kinase Src, the receptor tyrosine kinases c-Met and FGFR, the small GTPase Ras, and the dual phosphatase PTEN. In microorganisms, invasion genes belong to the class of virulence genes. There are numerous clinical and experimental observations showing that invasion results from the cross-talk between cancer cells and host cells, comprising myofibroblasts, endothelial cells, and leukocytes, all of which are themselves invasive. In bone metastases, host osteoclasts serve as targets for therapy. The molecular analysis of invasion-associated cellular activities, namely, homotypic and heterotypic cell-cell adhesion, cell-matrix interactions and ectopic survival, migration, and proteolysis, reveal branching signal transduction pathways with extensive networks between individual pathways. Cellular responses to invasion-stimulatory molecules such as scatter factor, chemokines, leptin, trefoil factors, and bile acids or inhibitory factors such as platelet activating factor and thrombin depend on activation of trimeric G proteins, phosphoinositide 3-kinase, and the Rac and Rho family of small GTPases. The role of proteolysis in invasion is not limited to breakdown of extracellular matrix but also causes cleavage of proinvasive fragments from cell surface glycoproteins.
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PMID:Clinical, cellular, and molecular aspects of cancer invasion. 1266 62

The E-cadherin-catenin complex proteins function in cell-cell adhesion and have been reported to be dysregulated in various human malignancies. Beta catenin is a cytoplasmic protein that associates with tyrosine kinase receptors and modulates cytoskeletal dynamics. It also plays a role in the Wnt signaling pathway. During neoplastic transformation, the phosphorylation of beta-catenin causes a loss of intercellular adhesions resulting in increased tumor cell motility and invasiveness. Tissue sections from 100 cases of non-small cell lung cancer (NSCLC) were immunostained with a monoclonal beta-catenin antibody. There were 47 squamous cell carcinomas (SCC) and 53 adenocarcinomas (AC) in the study group. Plasma membrane/cytoplasmic beta-catenin immunoreactivity was scored for intensity and distribution and correlated with tumor stage, grade and survival. Plasma membrane/cytoplasmic immunoreactivity for beta-catenin protein was observed in 71 (71%) of 100 NSCLC. 44 (94%) of 47 SCC and 27 (51%) of 53 AC expressed beta catenin. On univariate analysis, loss of beta catenin expression correlated with high tumor stage (p = 0.025), large tumor size (p = 0.02) and decreased patient survival (p = 0.04). The loss of beta catenin expression associated with high grade NSCLC reached near significance (p = 0.07). On multivariate analysis, the loss of beta catenin expression independently predicted shortened overall patient survival in NSCLC (p = 0.05). Beta catenin expression loss is associated with advanced tumor stage and is an independent predictor of shortened patient survival in NSCLC.
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PMID:Downregulation of plasma membrane expression/cytoplasmic accumulation of beta-catenin predicts shortened survival in non-small cell lung cancer. A clinicopathologic study of 100 cases. 1267 38

The human DF3/MUC1 transmembrane protein is aberrantly expressed in multiple myeloma cells and other B cell malignancies. The regulation of MUC1 in B cells and its potential function as a signaling molecule are unknown. The present results demonstrate that interleukin-7 (IL-7) stimulates MUC1 expression in multiple myeloma cells. The results also demonstrate the IL-7 induces binding of MUC1 to the Lyn tyrosine kinase. The MUC1 C-terminal subunit binds directly to Lyn through interactions with the Lyn SH3 and SH2 domains. Activation of Lyn in response to IL-7 stimulation results in increased tyrosine phosphorylation of the MUC1 C-terminal subunit. In vitro and in vivo studies show that Lyn phosphorylates MUC1, at least in large part, on a YEKV site in the MUC1 cytoplasmic tail. The functional significance of the MUC1-Lyn interaction is supported by the demonstration that Lyn-mediated phosphorylation of MUC1 on YEKV induces binding of MUC1 and the beta-catenin signaling protein. In concert with these results, IL-7 treatment is associated with binding of MUC1 to beta-catenin and targeting of the MUC1-beta-catenin complex to the nucleus. These findings indicate that IL-7 regulates MUC1 expression and function in multiple myeloma cells.
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PMID:DF3/MUC1 signaling in multiple myeloma cells is regulated by interleukin-7. 1275 May 62

p120-catenin (p120) was originally identified as a tyrosine kinase substrate, and subsequently shown to regulate cadherin-mediated cell-cell adhesion. Binding of the p120 Arm domain to E-cadherin appears to be necessary to maintain adequate cadherin levels for strong adhesion. In contrast, the sequence amino-terminal to the Arm domain confers a negative regulatory function that is likely to be modulated by phosphorylation. Several agents that induce rapid changes in cell-cell adhesion, including PDBu, histamine, thrombin, and LPA, result in significant changes in p120 S/T phosphorylation. In some cases, these changes are PKC-dependent, but the relationship among adhesion, PKC activation, and p120 phosphorylation is unclear, in part because the relevant p120 phosphorylation sites are unknown. As a crucial step toward directly identifying the function of these modifications in adhesion, we have used two-dimensional tryptic mapping and site-directed mutagenesis to pinpoint the constitutive and PKC-modulated sites of p120 S/T phosphorylation. Of eight sites that have been identified, two were selectively phosphorylated in vitro by GSK3 beta, but in vivo treatment of cells with GSK3 beta inhibitors did not eliminate these sites. PKC stimulation in vivo induced potent dephosphorylation at S268, and partial dephosphorylation of several additional sites. Surprisingly, PKC also strongly induced phosphorylation at S873. These data directly link PKC activation to specific changes in p120 phosphorylation, and identify the target sites associated with the mechanism of PKC-dependent adhesive changes induced by agents such as histamine and PDBu.
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PMID:Adhesion-associated and PKC-modulated changes in serine/threonine phosphorylation of p120-catenin. 1288 54


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