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 tyrosine kinase substrate p120cas (CAS), which is structurally similar to the cell adhesion proteins beta-catenin and plakoglobin, was recently shown to associate with the E-cadherin-catenin cell adhesion complex. beta-catenin, plakoglobin, and CAS all have an Arm domain that consists of 10 to 13 repeats of a 42-amino-acid motif originally described in the Drosophila Armadillo protein. To determine if the association of CAS with the cadherin cell adhesion machinery is similar to that of beta-catenin and plakoglobin, we examined the CAS-cadherin-catenin interactions in a number of cell lines and in the yeast two-hybrid system. In the prostate carcinoma cell line PC3, CAS associated normally with cadherin complexes despite the specific absence of alpha-catenin in these cells. However, in the colon carcinoma cell line SW480, which has negligible E-cadherin expression, CAS did not associate with beta-catenin, plakoglobin, or alpha-catenin, suggesting that E-cadherin is the protein which bridges CAS to the rest of the complex. In addition, CAS did not associate with the adenomatous polyposis coli (APC) tumor suppressor protein in any of the cell lines analyzed. Interestingly, expression of the various CAS isoforms was quite heterogeneous in these tumor cell lines, and in the colon carcinoma cell line HCT116, which expresses normal levels of E-cadherin and the catenins, the CAS1 isoforms were completely absent. By using the yeast two-hybrid system, we confirmed the direct interaction between CAS and E-cadherin and determined that CAS Arm repeats 1 to 10 are necessary and sufficient for this interaction. Hence, like beta-catenin and plakoglobin, CAS interacts directly with E-cadherin in vivo; however, unlike beta-catenin and plakoglobin, CAS does not interact with APC or alpha-catenin.
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PMID:The tyrosine kinase substrate p120cas binds directly to E-cadherin but not to the adenomatous polyposis coli protein or alpha-catenin. 765 99

Various structural components of intercellular junctions have recently been found to represent (or be related to) products of tumor-suppressor genes. The tumor-suppressor gene product adenomatous polyposis coli (APC) binds to beta 2-catenin (homologous to the product of Drosophila armadillo), which is cytoplasmically associated with the cell adhesion molecule E-cadherin.
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PMID:Tumor-suppressor gene products in cell contacts: the cadherin-APC-armadillo connection. 783 51

Regulation of cell adhesion and cell signaling by beta-catenin occurs through a mechanism likely involving the targeted degradation of the protein. Deletional analysis was used to generate a beta-catenin refractory to rapid turnover and to examine its effects on complexes containing either cadherin or the adenomatous polyposis coli (APC) protein. The results show that amino-terminal deletion of beta-catenin results in a protein with increased stability that acts in a dominant fashion with respect to wild-type beta-catenin. Constitutive expression in AtT20 cells of a beta-catenin lacking 89 N-terminal amino acids (deltaN89beta-catenin) resulted in severely reduced levels of the more labile wild-type beta-catenin. The mutant beta-catenin was expressed at endogenous levels but displaced the vast majority of wild-type beta-catenin associated with N-cadherin. The deltaN89beta-catenin accumulated on the APC protein to a level 10-fold over that of wild-type beta-catenin and recruited a kinase into the APC complex. The kinase was highly active toward APC in vitro and promoted a sodium dodecyl sulfate gel band shift that was also evident for endogenous APC from cells expressing the mutant beta-catenin. Unlike wild-type beta-catenin, which partitions solely as part of a high-molecular-weight complex, the deltaN89 mutant protein also fractionated as a stable monomer, indicating that it had escaped the requirement to associate with other proteins. That similar N-terminal mutants of beta-catenin have been implicated in cellular transformation suggests that their abnormal association with APC may, in part, be responsible for this phenotype.
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PMID:Deletion of an amino-terminal sequence beta-catenin in vivo and promotes hyperphosporylation of the adenomatous polyposis coli tumor suppressor protein. 875 7

Catenins were first characterized as linking the cytoplasmic domains of cadherin cell-cell adhesion molecules to the cortical actin cytoskeleton. In addition to their essential role in modulating cadherin adhesivity, catenins have more recently been indicated to participate in cell and developmental signaling pathways. beta-Catenin, for example, associates directly with at least two receptor tyrosine kinases and transduces developmental signals within the Wnt pathway. Catenins also complex with the tumor suppressor protein adenomatous polyposis coli (APC), which appears to have a role in regulating cell proliferation. We have used the yeast two-hybrid method to reveal that fascin, a bundler of actin filaments, binds to beta-catenin's central Armadillo repeat domain. Western blotting of immunoprecipitates from cell line and mouse and rat brain extracts indicate that this interaction exists in vivo. Fascin and beta-catenin's association was further substantiated in vitro using purified proteins isolated from recombinant bacterial and baculoviral sources. Immunoprecipitation analysis indicates that fascin additionally binds to plakoglobin, which is highly homologous to beta-catenin but not to p120cas, a newly described catenin which contains a more divergent Armadillo-repeat domain. Immunoprecipitation, in vitro competition, and domain-mapping experiments demonstrate that fascin and E-cadherin utilize a similar binding site within beta-catenin, such that they form mutually exclusive complexes with beta-catenin. Immunofluorescence microscopy reveals that fascin and beta-catenin colocalize at cell-cell borders and dynamic cell leading edges of epithelial and endothelial cells. In addition to cell-cell borders, cadherins were unexpectedly observed to colocalize with fascin and beta-catenin at cell leading edges. It is conceivable that beta-catenin participates in modulating cytoskeletal dynamics in association with the microfilament-bundling protein fascin, perhaps in a coordinate manner with its functions in cadherin and APC complexes.
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PMID:beta-Catenin associates with the actin-bundling protein fascin in a noncadherin complex. 879 67

beta-Catenin is essential for the function of cadherins, a family of Ca2+-dependent cell-cell adhesion molecules, by linking them to (alpha)-catenin and the actin cytoskeleton. beta-Catenin also binds to adenomatous polyposis coli (APC) protein, a cytosolic protein that is the product of a tumor suppressor gene mutated in colorectal adenomas. We have expressed mutant beta-catenins in MDCK epithelial cells to gain insights into the regulation of beta-catenin distribution between cadherin and APC protein complexes and the functions of these complexes. Full-length beta-catenin, beta-catenin mutant proteins with NH2-terminal deletions before (deltaN90) or after (deltaN131, deltaN151) the alpha-catenin binding site, or a mutant beta-catenin with a COOH-terminal deletion (delta C) were expressed in MDCK cells under the control of the tetracycline-repressible transactivator. All beta-catenin mutant proteins form complexes and colocalize with E-cadherin at cell-cell contacts; deltaN90, but neither deltaN131 nor deltaN151, bind alpha-catenin. However, beta-catenin mutant proteins containing NH2-terminal deletions also colocalize prominently with APC protein in clusters at the tips of plasma membrane protrusions; in contrast, full-length and COOH-terminal-deleted beta-catenin poorly colocalize with APC protein. NH2-terminal deletions result in increased stability of beta-catenin bound to APC protein and E-cadherin, compared with full-length beta-catenin. At low density, MDCK cells expressing NH2-terminal-deleted beta-catenin mutants are dispersed, more fibroblastic in morphology, and less efficient in forming colonies than parental MDCK cells. These results show that the NH2 terminus, but not the COOH terminus of beta-catenin, regulates the dynamics of beta-catenin binding to APC protein and E-cadherin. Changes in beta-catenin binding to cadherin or APC protein, and the ensuing effects on cell morphology and adhesion, are independent of beta-catenin binding to alpha-catenin. These results demonstrate that regulation of beta-catenin binding to E-cadherin and APC protein is important in controlling epithelial cell adhesion.
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PMID:NH2-terminal deletion of beta-catenin results in stable colocalization of mutant beta-catenin with adenomatous polyposis coli protein and altered MDCK cell adhesion. 902 98

alpha-Catenin is a 102-kDa protein exhibiting homology to vincuin, and it forms complexes with cadherins or the tumor-suppressor gene product adenomatous polyposis coli through binding to beta-catenin or plakoglobin (gamma-catenin). The incorporation of alpha-catenin into the cadherin-catenin complexes is a prerequisite for expression of the cell-adhesive activity of cadherins. Using an in vitro assay system involving bacterially expressed proteins, we localized a region in alpha-catenin required for molecular interaction with beta-catenin and plakoglobin. Analysis of various truncated alpha-catenin molecules revealed that amino-terminal residues 48-163 are able to bind to beta-catenin and plakoglobin. Consistent with the observation that beta-catenin and plakoglobin bind to the same region of alpha-catenin, beta-catenin competed with the binding of plakoglobin to alpha-catenin and vice versa. Under the conditions used, beta-catenin bound to alpha-catenin with higher affinity than did plakoglobin. Scatchard analysis indicated that the affinity of the interaction between alpha-catenin and beta-catenin or that between alpha-catenin and plakoglobin was moderately strong (Kd = 3. 8 x 10(-8) and 7.7 x 10(-8), respectively). When transfected into L cells expressing E-cadherin, the amino-terminal region of alpha-catenin (from residue 1 to 226) formed complexes with beta-catenin supporting the in vitro binding experiment results.
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PMID:Identification of the domain of alpha-catenin involved in its association with beta-catenin and plakoglobin (gamma-catenin). 911 Sep 93

Intestinal trefoil factor 3 (TFF3) is a member of the trefoil family of peptides, small molecules constitutively expressed in epithelial tissues, including the gastrointestinal tract. TFF3 has been shown to promote migration of intestinal epithelial cells in vitro and to enhance mucosal healing and epithelial restitution in vivo. In this study, we evaluated the effect of recombinant TFF3 (rTFF3) stimulation on the expression and cellular localization of the epithelial (E)-cadherin-catenin complex, a prime mediator of Ca2+ dependent cell-cell adhesion, and the adenomatous polyposis coli (APC)-catenin complex in HT29, HCT116, and SW480 colorectal carcinoma cell lines. Stimulation by rTFF3 (10(-9) M and 10(-8) M) for 20-24 hr led to cell detachment and to a reduction in intercellular adhesion in HT29 and HCT116 cells. In both cell lines, E-cadherin expression was down-regulated. The expression of APC, alpha-catenin and beta-catenin also was decreased in HT29 cells, with a translocation of APC into the nucleus. No change in either cell adhesion or in the expression of E-cadherin, the catenins, and APC was detected in SW480 cells. In addition, TFF3 induced DNA fragmentation and morphological changes characteristic of apoptosis in HT29. Tyrphostin, a competitive inhibitor of protein tyrosine kinases, inhibited the effects of TFF3. Our results indicate that by perturbing the complexes between E-cadherin, beta-catenin, and associated proteins, TFF3 may modulate epithelial cell adhesion, migration, and survival.
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PMID:Intestinal trefoil factor controls the expression of the adenomatous polyposis coli-catenin and the E-cadherin-catenin complexes in human colon carcinoma cells. 950 Dec 26

The cell undergoes a diverse range of stimulations including growth factor activation and signal transduction from adhesion receptors, such as cadherins. In the absence of a mitogenic signal from outside the cell, beta catenin is sequestered in complexes with the product of the adenomatous polyposis coli (APC) gene and a serine threonine glycogen kinase (GSK 3 beta) enabling degradation of free beta catenin. Residual catenins hold cells together by binding to cadherins both at adherens junctions and the actin cytoskeleton. When a mitotic signal is delivered by the wnt pathway, GSK 3 beta is antagonised so that beta catenin can no longer be degraded. Cytosolic concentrations rise and binding to other newly synthesised proteins occurs, especially transcription factors that are transported to the nucleus, such as lymphocyte enhancing factor and T cell factor. This article discusses the signalling between mitogenic and adhesion pathways and suggests that it is a global mechanism for development, differentiation, and disease. These changes in catenin and APC biology may not be sufficient alone to transform cells fully but they appear to be a necessary final common pathway for several cancers of the mucous secreting crypts (including Barrett's oesophageal lesions and colorectal cancer) or stratified secreting epithelium (melanoma) before invasion.
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PMID:Cadherin and catenin biology represent a global mechanism for epithelial cancer progression. 953 77

Aggressive fibromatosis is a monoclonal proliferation of spindle (fibroblast-like) cells. A subset of lesions contain somatic truncating adenomatous polyposis coli (APC) gene mutations, and all of the lesions contain an elevated beta-catenin protein level. A major function of APC is to regulate beta-catenin protein level. Beta-catenin has a dual function in the cell: it is a member of the adherens junction, and it binds transcription factors in the tcf-lef family, transactivating transcription. Cell cultures from aggressive fibromatoses containing an APC mutation were studied. Transient transfection of the full-length APC gene caused decreased proliferation and beta-catenin protein level in these cultures. To determine whether beta-catenin protein level was responsible for the change in proliferation rate, stable transfections of deltaN89beta-catenin (a stabilized form that is not degraded by APC, but retains all other functions) were achieved in half of the cultures derived from each tumor, whereas the other half were transfected with an empty vector. Transfection of the full-length APC gene in cultures that were stably transfected with deltaN89beta-catenin did not result in a change in proliferation. The type I promotor of p56lck contains an HMG consensus region, to which members of the tcf-lef family can bind. p56lck was expressed in cultures not transfected with the full-length APC gene and in cultures transfected with the full-length APC gene and deltaN89beta-catenin, but not in cultures transfected with only the full-length APC gene. These data show that APC truncating mutations give aggressive fibromatosis cells a proliferative advantage through beta-catenin and suggest that beta-catenin acts to transactivate transcription.
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PMID:Adenomatous polyposis coli gene mutation alters proliferation through its beta-catenin-regulatory function in aggressive fibromatosis (desmoid tumor). 973 21

Mutations of the adenomatous polyposis coli gene protein (APC) are associated with familial polyposis and also sporadic colon adenomas, both preconditions to cancer formation. Some familial polyposis patients also develop Gardner's syndrome, a condition characterized by supernumerary teeth, mandibular osteomas, and other maladies. We investigated participation of APC in normal tooth development. Using a monoclonal antibody to study APC expression in the forming rat incisor, we found no APC staining in differentiating ameloblasts, then strong staining in secreting ameloblasts and stratum intermedium cells, followed by cells in the transition stage which did not stain. Intense APC staining resumes in maturation-stage ameloblasts and proximal papillary cells. APC staining disappears again in reduced ameloblasts at the conclusion of amelogenesis. APC staining was not seen in any other odontogenic cells. We report a unique system in which APC expression is upregulated and downregulated twice during the normal life cycle of ameloblasts. APC, therefore, is important in the normal maturation of both colonic epithelium and odontogenic epithelium. At this point, we cannot rule out any of the known functions of APC, which include: modulation of cell adhesion by binding to catenin, regulation of beta-catenin as a differentiative signaling molecule, and promotion of microtubule assembly. In this respect, the rat incisor enamel organ provides a unique tissue for studying the regulation and functions of APC.
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PMID:Adenomatous polyposis coli protein is expressed in alternate stages of the ameloblast life cycle. 983 85


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