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 Ca(2+)-dependent cell adhesion molecule uvomorulin is a member of the cadherin gene family. Its cytoplasmic region complexes with structurally defined proteins termed alpha-, beta-, and gamma-catenins. Here we show that A-CAM (N-cadherin), another member of this gene family, also associates with catenins suggesting that this complex formation may be a general property of the cadherins. For uvomorulin it has been found that this association with catenins is of crucial importance for the adhesive function, but little is known about the molecular organization of the uvomorulin-catenin complex. Using a combination of biochemical analyses we show that a single complex is composed of one molecule of uvomorulin, one or two molecules of beta-catenin, and one molecule of alpha-catenin. Furthermore, beta-catenin seems to interact more directly with uvomorulin. In pulse-chase experiments beta-catenin is already associated with the 135-kD uvomorulin precursor molecule but the assembly of the newly synthesized alpha-catenin into the complex is only detected around the time of endoproteolytic processing.
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PMID:Molecular organization of the uvomorulin-catenin complex. 173 27

The cytoplasmic region of the Ca(2+)-dependent cell-adhesion molecule (CAM) uvomorulin associates with distinct cytoplasmic proteins with molecular masses of 102, 88, and 80 kDa termed alpha, beta, and gamma catenin, respectively. This complex formation links uvomorulin to the actin filament network, which seems to be of primary importance for its cell-adhesion properties. We show here that antibodies against alpha catenin also immunoprecipitate complexes that contain human N-cadherin, mouse P-cadherin, chicken A-CAM (adherens junction-specific CAM; also called N-cadherin) or Xenopus U-cadherin, demonstrating that alpha catenin is complexed with other cadherins. In immunofluorescence tests, alpha catenin is colocalized with cadherins at the plasma membrane. However, in cadherin-negative Ltk- cells, alpha catenin is found uniformly distributed in the cytoplasm, suggesting some additional biological function(s). Expression of uvomorulin in these cells results in a concentration of alpha catenin at membrane areas of cell contacts. We also have cloned and sequenced murine alpha catenin. The deduced amino acid sequence reveals a significant homology to vinculin. Our results suggest the possibility of a new vinculin-related protein family involved in the cytoplasmic anchorage of cell-cell and cell-substrate adhesion molecules.
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PMID:The uvomorulin-anchorage protein alpha catenin is a vinculin homologue. 192 79

We have recently found that the cytoplasmic region of the cell adhesion molecule uvomorulin associates with three proteins named catenin alpha, beta, and gamma. Here we show by analysis of various mutant uvomorulin polypeptides expressed in mouse L cells that this association is mediated by a specific domain in the cytoplasmic region. A specific recognition site for catenins is located in a 72-amino acid domain. Interestingly, 69 of the 72 amino acid residues are encoded by a single exon of the uvomorulin gene. To demonstrate the direct interaction between catenins and the 72-amino acid domain, cDNA constructs composed of H-2Kd cDNA and various 3' sequences of uvomorulin were expressed in L cells. Chimeric proteins between H-2Kd and the 72-amino acid domain of uvomorulin were shown, by immunoprecipitation with anti-H-2Kd antibodies, to complex with catenin alpha, beta, and gamma. Catenins connect uvomorulin to cytoskeletal structures. We provide biochemical evidence for an association of the uvomorulin-catenin complex with actin bundles. Our results suggest that catenin alpha plays a key role in the association with actin filaments, whereas catenin beta binds more directly to the cytoplasmic region of uvomorulin. In cell aggregation assays with transfected cells expressing normal or mutant uvomorulin, the adhesive function was expressed only when uvomorulin was associated with catenins. From these results we conclude that the cytoplasmic anchorage of uvomorulin is of major biological importance.
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PMID:Uvomorulin-catenin complex formation is regulated by a specific domain in the cytoplasmic region of the cell adhesion molecule. 234 35

Uvomorulin belongs to the group of Ca2+-dependent cell adhesion molecules, which are integral membrane proteins with several structural features in common. In particular, the cytoplasmic part of these proteins is highly conserved in different species, suggesting a common biological function. To test this assumption we transfected a uvomorulin full-length cDNA into uvomorulin-negative mouse NIH 3T3 and L cells. Immunoprecipitations with anti-uvomorulin antibodies detected, in addition to uvomorulin, three independent proteins of 102, 88 and 80 kd which are of host origin and which form complexes with uvomorulin. Using cDNA constructs coding for uvomorulin with cytoplasmic or extracellular deletions it is shown that the 102, 88 and 80 kd proteins complex with the cytoplasmic domain of uvomorulin. Peptide pattern analysis revealed that these three proteins are identical in different mouse cells. When uvomorulin cDNA was introduced into cell lines from other species, such as human HeLa and avian fibroblasts, the expressed uvomorulin was also associated with endogenous 102, 88 and 80 kd proteins and, moreover, each of these proteins showed structural similarities to the respective mouse molecule. A panel of antibodies specific for known cytoplasmic proteins of mol. wts similar to those of the three proteins did not react with any of the described components. This suggests that the 102, 88 and 80 kd proteins constitute a new group of proteins for which we propose the nomenclature of catenin alpha, beta and gamma respectively. The characterization of these proteins provides a first molecular basis for a possible cytoplasmic anchorage of uvomorulin to the cytoskeleton.
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PMID:The cytoplasmic domain of the cell adhesion molecule uvomorulin associates with three independent proteins structurally related in different species. 278 74

Because the cell adhesion molecule epithelial cadherin (E-cadherin) is absent in many invasive carcinomas, we transfected the E-cadherin gene into E-cadherin-negative, invasive breast cancer cell lines BT549 and HS578t to investigate the role of E-cadherin in invasive behavior. Although the transfected E-cadherin could mediate calcium-dependent aggregation to E-cadherin-transfected L-cells, morphology and invasiveness of the breast cancer cells were not altered. We investigated the strength of the linkage of the transfected E-cadherin to the actin cytoskeleton by examining the Triton X-100 solubility of the transfected E-cadherin. In BT549 and HS578t cells, a large proportion of the transfected E-cadherin was Triton soluble, whereas in E-cadherin-positive MCF-7 cells, Triton-insoluble E-cadherin was apparent at cell-cell borders. Interaction of E-cadherin with the actin cytoskeleton is thought to be mediated by the E-cadherin-binding proteins alpha-catenin, beta-catenin, and plakoglobin. We found normal levels of alpha-catenin and beta-catenin in BT549 and HS578t cells; however, low levels of plakoglobin were expressed in these cells compared to those found in weakly invasive MCF-7 cells. Furthermore, levels of tyrosine phosphorylation of beta-catenin were elevated in E-cadherin-transfected BT549 and HS578t cells compared to MCF-7 cells. We conclude that other factors such as the expression and appropriate posttranslational modification of cadherin-associated proteins must be in place for E-cadherin to be fully functional, i.e., to alter invasiveness. During cancer progression, loss of E-cadherin expression itself or multiple other mechanisms that lead to loss of cell-cell adhesion (mutation, loss of catenin expression, alterations in phosphorylation) may contribute to a more metastatic phenotype.
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PMID:Alterations in beta-catenin phosphorylation and plakoglobin expression in human breast cancer cells. 801 79

During cleavage, the mouse embryo expresses a variety of cell adhesion systems on its cell surfaces. We have reviewed biogenetic and assembly criteria for the formation of the uvomorulin/catenin, tight junction and desmosome adhesion systems as the trophectoderm differentiates. Each system reveals different mechanisms regulating molecular maturation. Adhesion processes contribute to the generation of distinct tissues in the blastocyst by modifying the expression pattern of blastomeres entering the non-epithelial inner cell mass lineage. Cell adhesion also influences the spatial organisation, but rarely the timing of expression, of proteins involved in trophectoderm differentiation.
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PMID:Molecular maturation of cell adhesion systems during mouse early development. 802 78

Expression of the cell adhesion molecule, epithelial cadherin (E-CD) and its binding proteins, alpha- and beta-catenins, in normal liver, chronic liver diseases, and hepatocellular carcinomas (HCCs) was investigated immunohistologically. In normal liver, weak immunostaining of E-CD and catenins was observed at the lateral membranes of the hepatocytes, whereas at the interlobular bile duct epithelia, they stained strongly. No immunoreactions were seen in sinusoidal Kupffer cells. Similar results were observed in the majority of livers from chronic hepatitis and cirrhosis sufferers; however, hepatocytes undergoing regeneration and rosette formation, as well as Hering canals and proliferating ductules, showed markedly increased molecular expression. Analysis of 66 HCC lesions revealed that the majority (64.3-96.6%) of thin trabecular- and pseudoglandular-type tumors preserved or overexpressed E-CD and catenins, whereas thick trabecular-type HCCs frequently showed low E-CD and alpha-catenin expression (56.5-65.2% reduction), suggesting that the thick trabecular histology represented diffuse tumor cell growth. Likewise, the E-CD and catenin expression levels correlated with the HCC cell differentiation grades. These collective results indicate that intercellular adhesion mediated by the E-CD-catenin system plays a role in morphological changes in nonmalignant and malignant hepatic diseases.
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PMID:Expression of epithelial cadherin and alpha- and beta-catenins in nontumoral livers and hepatocellular carcinomas. 867 62

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

Here we show that presenilin-1 (PS1), a protein involved in Alzheimer's disease, binds directly to epithelial cadherin (E-cadherin). This binding is mediated by the large cytoplasmic loop of PS1 and requires the membrane-proximal cytoplasmic sequence 604-615 of mature E-cadherin. This sequence is also required for E-cadherin binding of protein p120, a known regulator of cadherin-mediated cell adhesion. Using wild-type and PS1 knockout cells, we found that increasing PS1 levels suppresses p120/E-cadherin binding, and increasing p120 levels suppresses PS1/E-cadherin binding. Thus PS1 and p120 bind to and mutually compete for cellular E-cadherin. Furthermore, PS1 stimulates E-cadherin binding to beta- and gamma-catenin, promotes cytoskeletal association of the cadherin/catenin complexes, and increases Ca(2+)-dependent cell-cell aggregation. Remarkably, PS1 familial Alzheimer disease mutant DeltaE9 increased neither the levels of cadherin/catenin complexes nor cell aggregation, suggesting that this familial Alzheimer disease mutation interferes with cadherin-based cell-cell adhesion. These data identify PS1 as an E-cadherin-binding protein and a regulator of E-cadherin function in vivo.
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PMID:Presenilin-1 binds cytoplasmic epithelial cadherin, inhibits cadherin/p120 association, and regulates stability and function of the cadherin/catenin adhesion complex. 1122 48

We previously demonstrated that a ligand-blocking monoclonal antibody (mAb) against the epidermal growth factor-receptor (EGF-R), LA1, induced morphological conversion from epithelial-like to epithelial of the human lung cancer cell line, H322. This was accompanied by an up-regulation of epithelial cadherin (E-cadherin) expression (Clin. Cancer Res. 5 (1999) 681). In the present paper, we show that mAb LA1 induces the epithelial-like to epithelial conversion of the human lung cancer cell line, A549. In A549 and H322 cells, which express a detectable amount of EGF-R (ErbB-1), ErbB-2, ErbB-3, and ErbB-4 receptors, the LA1 mAb induces up-regulation of the E-cadherin/catenin complex (alpha-, beta-, and gamma-catenins). This is associated with re-localization of E-cadherin, alpha-catenin, (and to a lesser extent beta-catenin), but not gamma-catenin. Additionally, we report that mAb LA1 inhibits cell motility. In contrast, epidermal growth factor (EGF) or heparin-binding EGF-like growth factor (HB-EGF) induces the epithelial-like to fibroblastoid conversion of A549 and H322 cell lines, slightly reduces the expression of E-cadherin and beta-catenin, but not alpha- and gamma-catenins, and stimulates cell motility. These studies demonstrate that EGF-R modulation regulates the E-cadherin/catenin complex and cell motility in human lung epithelial carcinoma cells. Our results may have important therapeutic implications for the treatment of invasive human lung carcinomas via the restoration of the cadherin/catenin complex using inhibitors of EGF-R.
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PMID:Regulation of E-cadherin/catenin complex patterns by epidermal growth factor receptor modulation in human lung cancer cells. 1205 67


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