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)

Matrix metalloproteases from the cell surface cleave an 80 kDa E-cadherin fragment (sE-CAD) that induces invasion of cancer cells into collagen type I and inhibits cellular aggregation. Conditioned media from MDCKts.srcCl2 cells at 40 degrees C and 35 degrees C, PCm.src5 and COLO-16 cells at 37 degrees C contained spontaneously released sE-CAD; these 48 h old conditioned media were capable of inhibiting E-cadherin functions in a paracrine way. Here we show direct cleavage of the extracellular domain of E-cadherin by the serine protease plasmin. sE-CAD released by plasmin inhibits E-cadherin functions as evidenced by induction of invasion into collagen type I and inhibition of cellular aggregation. This functional inhibition by sE-CAD was reversed by aprotinin or by immunoadsorption on protein Sepharose 4 fast flow beads with antibodies against the extracellular part of E-cadherin. Our results demonstrate that plasmin produces extracellular E-cadherin fragments which regulate E-cadherin function in cells containing an intact E-cadherin/catenin complex.
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PMID:Plasmin produces an E-cadherin fragment that stimulates cancer cell invasion. 1192 10

During embryonic limb development, cartilage formation is presaged by a crucial mesenchymal cell condensation phase. N-Cadherin, a Ca2+ -dependent cell-cell adhesion molecule, is expressed in embryonic chick limb buds in a spatiotemporal pattern suggestive of its involvement during cellular condensation; functional blocking of N-cadherin homotypic binding, by using a neutralizing monoclonal antibody, results in perturbed chondrogenesis in vitro and in vivo. In high-density micromass cultures of embryonic limb mesenchymal cells, N-cadherin expression level is high during days 1 and 2, coincident with active cellular condensation, and decreases upon overt chondrogenic differentiation from day 3 on. In this study, we have used a transfection approach to evaluate the effects of gain- and loss-of-function expression of N-cadherin constructs on mesenchymal condensation and chondrogenesis in vitro. Chick limb mesenchymal cells were transfected by electroporation with recombinant expression plasmids encoding wild-type or two mutant extracellular/cytoplasmic deletion forms of N-cadherin. Expression of the transfected N-cadherin forms showed a transient profile, being high on days 1-2 of culture, and decreasing by day 3, fortuitously coincident with the temporal profile of endogenous N-cadherin gene expression. Examined by means of peanut agglutinin (PNA) staining for condensing precartilage mesenchymal cells, cultures overexpressing wild-type N-cadherin showed enhanced cellular condensation on culture days 2 and 3, whereas expression of the deletion mutant forms (extracellular/cytoplasmic) of N-cadherin resulted in a decrease in PNA staining, suggesting that a complete N-cadherin protein is required for normal cellular condensation to occur. Subsequent chondrogenesis was also affected. Cultures overexpressing the wild-type N-cadherin protein showed enhanced chondrogenesis, indicated by increased production of cartilage matrix (sulfated proteoglycans, collagen type II, and cartilage proteoglycan link protein), as well as increased cartilage nodule number and size of individual nodules, compared with control cultures and cultures transfected with either of the two mutant N-cadherin constructs. These results demonstrate that complete N-cadherin function, at the levels of both extracellular homotypic binding and cytoplasmic linkage to the cytoskeleton by means of the catenin complex, is required for chondrogenesis by mediating functional mesenchymal cell condensation.
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PMID:Analysis of N-cadherin function in limb mesenchymal chondrogenesis in vitro. 1224 19

Gelsolin is a widely distributed actin binding protein involved in controlling cell morphology, motility, signaling and apoptosis. The role of gelsolin in tumor progression, however, remains poorly understood. Here we show that expression of green fluorescent protein (GFP)-tagged gelsolin in MDCK-AZ, MDCKtsSrc or HEK293T cells promotes invasion into collagen type I. In organ culture assays, MDCK cells expressing gelsolin-GFP invaded pre-cultured chick heart fragments. Gelsolin expression inhibited E-cadherin-mediated cell aggregation but did not disrupt the E-cadherin-catenin complex. Co-expression of dominant-negative Rac1N17, but not RhoAN19 or Cdc42N17, counteracted gelsolin-induced invasion, suggesting a requirement for Rac1 activity. Increased ARF6, PLD or PIP5K 1alpha activity canceled out gelsolin-induced invasion. Furthermore, we found that invasion induced by gelsolin is dependent on Ras activity, acting through the PI3K-Rac pathway via the Ras guanine nucleotide exchange factor Sos-1. These findings establish a connection between gelsolin and the Ras oncogenic signaling pathway.
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PMID:Gelsolin-induced epithelial cell invasion is dependent on Ras-Rac signaling. 1248 99

Loss of E-cadherin/catenin mediated cell-cell adhesion and overexpression of matrix metalloproteinases (MMPs) are largely involved in tumor invasion. It has been recently shown that high levels of a soluble 80 kDa fragment of E-cadherin, resulting from a cleavage by MMPs, are found in serum and in urine from cancer patients. Additionally, this soluble E-cadherin (sE-CAD) promotes cell invasion into chick heart and into collagen type I gels. The aim of our study was to examine the mechanism of sE-CAD-induced cell invasion. Since MMPs play a crucial role in invasion, we looked for induction of MMPs by sE-CAD in noninvasive human lung tumor cells 16HBE. An induction of MMP-2, MMP-9 and MT1-MMP expression was observed both at the mRNA and at the protein level in the presence of sE-CAD (in conditioned medium form or in E-cadherin HAV peptide form). No induction of MMP-1, -3 and -7 or variation of the levels of their inhibitors, TIMP-1 and TIMP-2, were detected. The biologic relevance of the sE-CAD-induced MMP upregulation was tested by demonstrating that sE-CAD promotes in vitro cell invasion in a modified Boyden chamber assay. These data provide new insight into mechanisms of tumor invasion by ectodomain shedding of the cell-cell adhesion molecule E-cadherin.
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PMID:Upregulation of MMPs by soluble E-cadherin in human lung tumor cells. 1276 64

Metastases of various malignancies have been shown to be inversely related to the abundance of nm23 protein expression. However, the downstream pathways involved in nm23-mediated suppression of metastasis have not been elucidated. In the present investigation, we used cDNA microarrays to identify novel genes and functional pathways in nm23-mediated spontaneous breast metastasis. Microarray experiments were performed in a pair of cell lines, namely, C-100 (only vector transfected; highly metastatic) and H1-177 (nm23 transfected; low metastatic), derived from human mammary carcinoma cell line MDA-MB-435. The cDNA microarray analysis using GeneSpring software revealed significant as well as consistent alterations in the expression (up- and downregulation) of 2158 genes in a total of 18889 genes between high and low metastatic cells. Some of these genes were grouped into 6 functional categories, namely, invasion and metastasis, apoptosis and senescence, signal transduction molecules and transcription factors, cell cycle and repair, adhesion, and angiogenesis to extrapolate an association between these genes and different functional pathways involved in nm23-regulated metastasis. The results suggest that nm23 gene plays a major role in metastasis and its mechanism of action of metastasis suppression may involve downregulation of genes associated with cell adhesion, motility (integrins alpha2, -8, -9, -L and -V, collagen type VIII alpha1, fibronectin 1, catenin, TGF-beta2, FGF7, MMP14 and 16, ErbB2) and possibly certain tumor/metastasis suppressors (2 members of SWI/SNF-related matrix-associated proteins 2 and 5 and PTEN).
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PMID:Expression profile of genes associated with antimetastatic gene: nm23-mediated metastasis inhibition in breast carcinoma cells. 1473 69

The mechanisms by which growth factors cooperate with cell adhesion molecules to modulate epithelial cell motility remain poorly understood. Here, we investigated the role of the E-cadherin/catenin complex in insulin-like growth factor (IGF-I)-dependent cell migration and invasion. We used variants of the HCT-8 colon cancer family that differ in their expression of alphaE-catenin, an intracellular molecule that links the E-cadherin/catenin complex to the actin cytoskeleton. Migration was determined using a monolayer wound model and cell invasion by the penetration of the cells into type-I collagen gels. We showed that alpha-catenin-deficient cells were not able to migrate in cohort upon IGF-I stimulation. Transfection of these cells with alpha-catenin isoforms (alphaN- or alphaT-catenin) restored migratory response IGF-I. These results suggest that alpha-catenins are involved in the signal issued from the E-cadherin/catenin complex to regulate IGF-I-stimulated migration. In contrast, IGF-I promoted invasion of both alpha-catenin-deficient and alpha-catenin-expressing cells, indicating that alpha-catenin did not participate in the regulation of IGF-I-induced invasion. Inhibition of E-cadherin function by treatment with MB-2 monoclonal antibodies inhibited both IGF-I-dependent cell migration and invasion. Taken together, our results indicate that functional alpha-catenin is essential for migration but not for invasion, while E-cadherin is involved in both phenomena.
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PMID:Alpha-catenin is required for IGF-I-induced cellular migration but not invasion in human colonic cancer cells. 1496 Oct 74

Cancer invasion and metastasis develop through a sequence of processes involving loss of cell-cell and cell-matrix adhesions, proteolysis and induction of angiogenesis. We reviewed the current literature on the molecules that have been shown to play a significant role in these three steps of metastatisation in bladder cancer (BC) cells and their host microenvironment. Particular emphasis was given to markers that are assessable through immunohistochemistry and for which an additional prognostic value over the TNM variables has been recognized, in order to identify a subset of tumour markers readily available for application in daily clinical practice. We conclude that markers such as E-cadherin, Sialosyl-LeX, laminin, collagen IV, TSP-1 and MVD are useful prognostic markers, alpha, beta, and gamma catenin, MMP-2 and -9, uPAR, PD-ECGF and Bfgf can be considered potentially useful, while research on CD44, MMP-1 and -3, uPA, cathepsin D and VEGF has proved inconclusive. Further research in this field should concentrate on the molecules listed in the first group.
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PMID:Metastasis markers in bladder cancer: a review of the literature and clinical considerations. 1530 99

The female inflorescences of the hop plant (Humulus lupulus L.) are essential during brewing to add taste and flavor to beer and to stabilize beer foam. Xanthohumol, the main prenylated chalcone in hops, was investigated for its antiinvasive activity on human breast cancer cell lines (MCF-7 and T47-D) in vitro. Xanthohumol was able to inhibit the invasion of MCF-7/6 cells at 5 microM in the chick heart invasion assay and of T47-D cells in the collagen invasion assay. Xanthohumol inhibited growth of MCF-7/6 and T47-D cells, but not of chick heart cells. Moreover, it induced apoptosis of these tumor cells as demonstrated by the cleavage of nuclear PARP after 48 hr treatment. To probe the mechanism of the antiinvasive effect of xanthohumol, involvement of the E-cadherin/catenin invasion-suppressor complex was investigated. An aggregation assay demonstrated stimulation of aggregation of MCF-7/6 cells in the presence of 5 microM xanthohumol and this could be completely inhibited by an antibody against E-cadherin. Xanthohumol upregulates the function of the E-cadherin/catenin complex and inhibits invasion in vitro, indicating a possible role as an antiinvasive agent in vivo as well.
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PMID:Antiinvasive effect of xanthohumol, a prenylated chalcone present in hops (Humulus lupulus L.) and beer. 1598 30

There is substantial interest in the influence of the microenvironment on tumor cells. Cell-cell as well as cell-matrix interactions have been correlated with the control of different processes such as tumor cell proliferation, differentiation, survival and migration. In this review, we focus on the influence of collagen types I and III expressed in carcinomata on the E-cadherin-mediated adhesion between epithelial tumor cells. Recently published studies described the ability of fibrillar collagen to reduce E-cadherin gene expression and to induce disruption of the E-cadherin adhesion complex. The reduced cellular adhesion influences tissue integrity and has been correlated with elevated cell migration and invasion of different carcinoma cells. Altered tyrosine phosphorylation of the intracellular, cadherin-associated catenins was identified as an important regulator of collagen-induced disassembly of the E-cadherin adhesion complex. The molecular mechanisms involved in collagen-induced cell transformation include activation of integrins, activation and translocation of the focal adhesion kinase to the E-cadherin/catenin complex as well as inhibition of the phosphatase PTEN.
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PMID:Signaling pathways involved in collagen-induced disruption of the E-cadherin complex during epithelial-mesenchymal transition. 1758 24

The interaction between tumor cells and the microenvironment has substantial effects on tumor cell behavior by influencing cell-cell as well as cell-matrix contacts. The underlying molecular mechanisms are only partially unraveled. In this review we focus on the influence of the stromal microenvironment, especially collagen type I and type III on cellular adhesion and epithelial to mesenchymal transition (EMT). Extensive studies have emphasized that components of the microenvironment such as fibrillar collagen or growth factors like transforming growth factor beta are involved in induction of dedifferentiation of epithelial cells accompanied by disruption of the E-cadherin adhesion complex and reduced E-cadherin concentrations. On the molecular level many different proteins have been identified which are involved in the regulation of EMT, such as activation of integrins, intracellular kinases such as Src, focal adhesion kinase (FAK) or phosphatidylinositol-3 kinase (PI3-kinase) and alteration of catenin phosphorylation. The reduced cellular adhesion influences the tissue integrity and allows tumor cells to disseminate from the primary tumor representing an early step in cancer metastasis.
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PMID:Microenvironmental regulation of E-cadherin-mediated adherens junctions. 1850 91


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