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: UMLS:C0007097 (carcinoma)
152,788 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

E-cadherin is a calcium dependent cell-cell adhesion molecule. In cancer tissue, detachment of the adhesion system is indispensable for invasion and metastasis of cancer cells. We have investigated mechanism of the dysfunction of E-cadherin-dependent cell-cell adhesion system in gastric carcinoma cells. Although the high expression of E-cadherin in a scirrhous gastric cancer cell line HSC-39, the function of E-cadherin was completely abolished. Western blotting of beta-catenin in HSC-39 cells demonstrated that a truncated beta-catenin was detected. The truncation was due to partial deletion of beta-catenin DNA. It was concluded that in HSC-39 loss of E-cadherin dependent cell-cell adhesion was due to mutation of beta-catenin gene.
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PMID:[Dysfunction of E-cadherin due to mutation of beta-catenin in a scirrhous gastric cancer cell line]. 762 93

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

p120 was originally identified as a substrate of pp60src and several receptor tyrosine kinases, but its function is not known. Recent studies revealed that this protein shows homology to a group of proteins, beta-catenin/Armadillo and plakoglobin (gamma-catenin), which are associated with the cell adhesion molecules cadherins. In this study, we examined whether p120 is associated with E-cadherin using the human carcinoma cell line HT29, as well as other cell lines, which express both of these proteins. When proteins that copurified with E-cadherin were analyzed, not only alpha-catenin, beta-catenin, and plakoglobin but also p120 were detected. Conversely, immunoprecipitates of p120 contained E-cadherin and all the catenins, although a large subpopulation of p120 was not associated with E-cadherin. Analysis of these immunoprecipitates suggests that 20% or less of the extractable E-cadherin is associated with p120. When p120 immunoprecipitation was performed with cell lysates depleted of E-cadherin, beta-catenin was no longer coprecipitated, and the amount of plakoglobin copurified was greatly reduced. This finding suggests that there are various forms of p120 complexes, including p120/E-cadherin/beta-catenin and p120/E-cadherin/plakoglobin complexes; this association profile contrasts with the mutually exclusive association of beta-catenin and plakoglobin with cadherins. When the COOH-terminal catenin binding site was truncated from E-cadherin, not only beta-catenin but also p120 did not coprecipitate with this mutated E-cadherin. Immunocytological studies showed that p120 colocalized with E-cadherin at cell-cell contact sites, even after non-ionic detergent extraction. Treatment of cells with hepatocyte growth factor/scatter factor altered the level of tyrosine phosphorylation of p120 as well as of beta-catenin and plakoglobin. These results suggest that p120 associates with E-cadherin at its COOH-terminal region, but the mechanism for this association differs from that for the association of beta-catenin and plakoglobin with E-cadherin, and thus, that p120, whose function could be modulated by growth factors, may play a unique role in regulation of the cadherin-catenin adhesion system.
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PMID:Association of p120, a tyrosine kinase substrate, with E-cadherin/catenin complexes. 787 18

Desmosomes represent a special type of the plaque-bearing adhering junctions, characteristic of certain pathways of cell differentiation, which compositionally are not identical in the various kinds of desmosome-forming cells. While all desmosomes contain the cytoplasmic plaque proteins desmoplakin I and plakoglobin, they can vary in their specific complement of desmosomal cadherins and by the presence of additional plaque proteins. We have raised monoclonal antibodies recognizing one such 'accessory' plaque protein, the cytokeratin-binding, basic protein plakophilin 1, originally introduced as 'band 6 protein' or 'polypeptide D6', which is an abundant desmosomal component in certain epithelia. Using such antibodies, we have isolated cDNA clones encoding the bovine and the human protein and determined their complete amino acid sequences. The mRNAs, which on Northern blot tests appear as two bands corresponding to approximately 4 and 2.4 kb (bovine) or 5 and 2.6 kb (human), code for 727 amino acids (calculated mol. wt. 80,180; IEP 9.25) in bovine and 726 amino acids (mol. wt. 80,496; IEP 9.34) in human plakophilin. Sequence analyses have revealed the presence of 9.2 repeated units of the arm-motif sequence, confirming our previous conclusion that this protein is a member of a larger family of proteins including, inter alia, several membrane-associated plaque proteins such as vertebrate plakoglobin and beta-catenin as well as the product of the armadillo gene of Drosophila. The plakophilin antibodies and cDNA probes have also allowed us to examine its synthesis in various tissues and cell cultures. While we confirm the occurrence of the protein in cytoskeletal fractions from various stratified squamous, complex, glandular duct and bladder epithelia, where it can be localized to desmosomes, we have, surprisingly, also identified the protein, although at lower amounts, in cytoskeletal fractions from several cultured cell lines in which the protein has not been consistently localized to desmosomes by immunofluorescence microscopy. Examples include cultured cells derived from certain simple epithelia such as the kidney-derived line MDBK and cultured calf lens cells. We have also found that, in all plakophilin 1-positive cells examined, a pool of diffusible ('soluble') cytoplasmic plakophilin exists, including cell lines such as human mammary carcinoma MCF-7 cells in which this soluble plakophilin seems to be the only detectable form. In addition, we have identified some soluble proteins conspicuously cross-reacting with plakophilin 1. Possible functions of plakophilin and its potential value as a marker for specific states of cell differentiation are discussed, particularly with respect to tumor diagnosis.
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PMID:Cell type-specific desmosomal plaque proteins of the plakoglobin family: plakophilin 1 (band 6 protein). 789 Jan 38

The effect of hepatocyte growth factor/scatter factor (HGF/SF) and epidermal growth factor (EGF) on cadherin-mediated adhesion of human carcinoma cells was studied. HGF/SF induced scattering of colonic adenocarcinoma HT29 and gastric adenocarcinomas MKN7 and MKN74 cells. Likewise, EGF induced scattering of HT29 and MKN7 cells. These cells expressed E-cadherin, which was concentrated at cell-cell contact sites. When the scattering of these cells was induced by HGF/SF or EGF, the E-cadherin concentration at cell-cell boundaries tended to decrease. Immunoblotting analyses, however, demonstrated that these growth factor treatments did not alter the expression of E-cadherin and E-cadherin-associated proteins, alpha- and beta-catenin and plakoglobin. beta-Catenin, plakoglobin and an unidentified 115-kDa molecule associated with E-cadherin were found to be phosphorylated at tyrosine residues, and these phosphorylations were enhanced by the growth factor treatments. These results suggest that HGF/SF and EGF may modulate the function of the cadherin-catenin system via tyrosine phosphorylation of cadherin-associated proteins.
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PMID:Tyrosine phosphorylation of beta-catenin and plakoglobin enhanced by hepatocyte growth factor and epidermal growth factor in human carcinoma cells. 808 83

Transfection of E- and P-cadherin cDNA has been carried out in murine spindle carcinoma cells previously shown to be deficient in both cadherins (Navarro et al., J. Cell Biol. 115, 517-533, 1991). High levels of expression of E- or P-cadherin do not significantly affect the fibroblastic morphology of the parental spindle cells. In addition, the tumorigenic behavior of these highly malignant cells is not influenced by the ectopic expression of either cadherin. Nevertheless, a fraction of the exogenous cadherins is able to associate to detergent-insoluble components of the transfectant cells, and the expression of the exogenous E-cadherin confers Ca(2+)-dependent aggregation on the spindle transfectants in an in vitro assay. Immunoprecipitation analysis of the cadherin-catenin complex of the transfectants revealed that the ectopic E-cadherin associates with the alpha- and beta-catenin proteins. However, the gamma-catenin/plakoglobin component could not be detected in the E-cadherin immunocomplexes of the spindle transfectant cells, in contrast to the epithelial cells where the three catenins appeared to be associated with E-cadherin. The lack of association of gamma-catenin is correlated with very low levels of plakoglobin in whole cell extracts of the parental spindle cells. These results indicate that the association of E-cadherin with the alpha- and beta-catenin components is not sufficient to promote a fibroblastoid-epithelial conversion of highly malignant spindle cells. The presence of plakoglobin could be required for the proper organization of E-cadherin in the transfectant cells in order to acquire an epithelioid phenotype.
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PMID:Expression of E- or P-cadherin is not sufficient to modify the morphology and the tumorigenic behavior of murine spindle carcinoma cells. Possible involvement of plakoglobin. 822 14

Cell-cell adhesion in tissue is mainly regulated by homotypic interaction of cadherin molecules, which are anchored to the cytoskeleton via cytoplasmic proteins, including alpha- and beta-catenin. Although we previously demonstrated that alpha-catenin is crucial for cadherin function in vivo, little is known about the role of beta-catenin. We examined the expression of beta-catenin in human carcinoma samples along with normal tissue (esophagus, stomach, and colon) by immunostaining using our antibody for beta-catenin. Normal epithelium strongly expressed beta-catenin. However, beta-catenin expression was frequently reduced in primary tumors of the esophagus (10 of 15, 67%), stomach (9 of 19, 47%), and colon (11 of 22, 50%). From an immunoprecipitation study, we found that beta-catenin forms a complex with E-cadherin not only in the normal epithelium but also in cancerous tissues. In coexpression patterns of E-cadherin and beta-catenin, 43 (77%) of the 56 tumors showed a similar expression of both molecules, whereas the other 13 tumors (23%) showed positive staining for E-cadherin and reduced expression of beta-catenin. These findings suggest that beta-catenin forms a complex with E-cadherin in vivo and down-regulation of beta-catenin expression is associated with malignant transformation.
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PMID:Beta-catenin expression in human cancers. 854 24

Disturbed function of E-cadherin and/or of one of its anchoring proteins, the catenins, is thought to destabilize E-cadherin-mediated cell-cell adhesion, which may enhance the invasiveness of epithelial cells and thus favor carcinoma progression. Reduced expression of E-cadherin and alpha-catenin, as well as mutations in the E-cadherin gene, have been found in various carcinomas, whereas mutations in the alpha- and beta-catenin genes have been described only in carcinoma cell lines. Using reverse transcription-PCR, followed by agarose gel electrophoresis and single-strand conformational polymorphism, we examined 16 diffuse- and 5 intestinal-type gastric carcinomas, as well as 9 lobular and 2 ductal breast carcinomas, for mutations of alpha- and beta-catenin cDNA. All of the investigated tumors were analyzed previously for E-cadherin mutations. Comparing tumorous and nontumorous samples, we detected neither deletions nor aberrant single-strand conformational polymorphism patterns. At nucleotide 2220 of the alpha-catenin gene, we identified one frequent polymorphism. Our findings suggest that, in contrast to E-cadherin, mutations of alpha- and beta-catenin do not contribute to the pathogenesis or the diffuse growth patterns of gastric or breast carcinomas.
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PMID:No evidence for mutations in the alpha- and beta-catenin genes in human gastric and breast carcinomas. 854 73

The HaCa4 cell line, derived from a mouse skin carcinoma induced by Harvey murine sarcoma virus, is highly tumorigenic when injected into nude mice and produces multiple metastases in the lungs. HaCa4 cells express high levels of viral Ha-ras oncogene products, anomalously synthesize the embryonic/simple epithelial keratin K8, and have lost the expression of the cell-cell adhesion receptor E-cadherin (E-CD). E-CD(+) cell clones (E62 and E24), obtained by transfection of an exogenous E-CD cDNA into HaCa4 cells, had a decreased ability to migrate through type IV collagen matrices. However, the E-CD (+) E62 clone remained as metastatic as the parental cell line, whereas the E24 clone, which does not take up the exogenous cDNA but spontaneously switches on the endogenous E-CD gene, suppressed the metastatic phenotype although it maintained its tumorigenicity. E24 cells had fivefold to sixfold lower levels of viral Ha-ras mRNA and p21 protein than the other cell lines. In addition, they did not synthesize K8 but rather switched on keratin K19. The comparison of E-CD proteins synthesized by E62 and E24 cell lines revealed no structural or functional differences because both localized at cell-cell contacts and associated with alpha-catenin, beta-catenin, and plakoglobin. Furthermore, E-CD was still expressed in metastatic lung nodules produced by E62 cells. These results suggest that suppression of the metastatic phenotype in E24 cells occurs independently of E-CD expression and correlates with decreased levels of the oncogenic ras p21 protein.
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PMID:Suppression of the metastatic phenotype of a mouse skin carcinoma cell line independent of E-cadherin expression and correlated with reduced Ha-ras oncogene products. 859 77

Various types of tumors show aberrant expression and overexpression of epidermal growth factor (EGF) receptor and the degree of receptor expression correlates with a malignant phenotype in many epithelial tumors. However, in vitro evidence supporting the advantageous role of receptor overexpression is deficient. In this study, we compared the effects of exogenous EGF on the cell colony morphology in monolayer and collagen gel culture between HSC-1 squamous carcinoma cells overexpressing EGF receptor and their revertant subline cells. These cells formed coherent cell colonies under routine culture conditions, but addition of EGF induced dissociation of cell colonies within 24 h in the parent HSC-1 cells, though not in the subline cells. Since the colony dissociation apparently involved loss of cell-cell adhesion, we also studied the effects of EGF on E-cadherin expression and its function. Cell aggregation assays showed that EGF reduced E-cadherin function dose-dependently in the parent cells, but not in the subline cells. However, immunoblotting analysis and ELISA showed the absence of downregulation or degradation of E-cadherin. Instead, EGF tyrosine phosphorylated cadherin/catenin complex components including beta-catenin and increased the detergent solubility of E-cadherin in the parent cells. These results suggest that EGF modified the functional association between E-cadherin and actin filament through tyrosine phosphorylation of the cadherin/catenin complex and thereby made the adhesion molecule incompetent. Our results indicate that the ligand activation of overexpressed EGF receptor impairs E-cadherin-mediated cell-cell adhesion and causes dissociation of the squamous carcinoma cell colonies, which facilitates tumor cell invasion in vivo. This might be relevant to the advantageous role of EGF receptor overexpression in malignant phenotype of epithelial tumor cells.
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PMID:Ligand activation of overexpressed epidermal growth factor receptor results in colony dissociation and disturbed E-cadherin function in HSC-1 human cutaneous squamous carcinoma cells. 863 95


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