KEGG:D02003 - FACTA Search

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Query: KEGG:D02003 (NBT)
1,323 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

C-CAM is a Ca(2+)-independent cell adhesion molecule (CAM) that mediates intercellular adhesion of isolated rat hepatocytes. It is widely distributed in epithelia, where its presence both at lateral cell borders and on apical cell surfaces suggests that it may have diverse biological functions. Two major isoforms, C-CAM1 and C-CAM2, which differ in the lengths of their cytoplasmic domains, have been identified. The lack of suitable in vitro systems has so far prevented a detailed study of the physiological role of C-CAM in epithelia. We now report on the identification, biochemical characterization and functional analysis of C-CAM isoforms in the established epithelial cell line NBT II, derived from a chemically induced carcinoma of rat bladder. C-CAM in NBT II cells is a 110-115 kDa cell surface glycoprotein located predominantly at sites of cell-cell contact but also present on the apical cell surface. Northern blotting analysis revealed the presence of both C-CAM1 and C-CAM2, with the major transcripts for both isoforms present within the 4.0 kb size range. The dissociation of NBT II cell colonies by anti-C-CAM antibodies indicated that at least one function of C-CAM in these cells is to mediate intercellular adhesion. The maintenance of extensive cell-cell contacts and the expression of C-CAM at the contact sites in cells grown in low Ca2+ medium suggested that, like its counterpart in hepatocytes, C-CAM in NBT II cells may be a Ca(2+)-independent cell-cell adhesion molecule. The co-localization and coordinate reorganization of both C-CAM and actin by anti-C-CAM antibodies indicated that these two proteins were associated and suggested that interactions with the cytoskeleton may be important for the regulation of C-CAM function. The specific upregulation of C-CAM1 in cells induced to undergo epithelial to mesenchymal-like transitions (EMT) by the serum substitute Ultroser G suggested that C-CAM isoforms are important modulators of the adhesive properties of these cells.
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PMID:Differential regulation of C-CAM isoforms in epithelial cells. 792 30

The rat bladder carcinoma epithelial NBT-II cell line undergoes, in vitro, a morphological transition to a fibroblast-like state in the presence of different growth factors. We have selected, in vivo, a metastatic clone, designated M-NBT-II, which has a mesenchymal phenotype and secretes into the culture medium a factor able to dissociate epithelial clusters of NBT-II or MDCK cells. This factor was designated scatter factor-like (SFL) by analogy to the HGF/SF, which has the same dissociating effect in these two cell lines. Here, we show that SFL factor and HGF/SF are different factors: (i) no HGF/SF transcripts could be detected using either specific rat HGF/SF cDNA probes or PCR; (ii) blocking antibodies against rat HGF/SF do not inhibit the SFL activity; and (iii) crude culture medium or partially purified SFL factor-containing fractions do not induce MDCK tubulogenesis, a biological assay that is specific for HGF/SF activity in vitro. We report the partial purification of the SFL factor, based on ion exchange and reverse-phase chromatography. The results indicate that the M-NBT-II metastatic variant secretes a dissociating factor sharing some common biological properties with the HGF/SF, which suggests that the SFL factor is a member of the HGF/SF family and may be involved in tumor progression.
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PMID:A scatter factor-like factor is produced by a metastatic variant of a rat bladder carcinoma cell line. 792 34

Exogenous HGF/SF converts subconfluent cultures of NBT-II epithelial carcinoma cells into mobile fibroblast-like cells while being only mitogenic for cells maintained at high density. To investigate the potential role of such factor in tumor progression, we generated HGF/SF-producing NBT-II cells by transfection with an expression plasmid containing human HGF/SF cDNA. HGF/SF-producing cells also exhibit a fibroblastic phenotype. Media conditioned by these cells are potent inducers of in vitro tubulogenesis which can be inhibited with specific anti-HGF/SF antibodies; these antibodies are also able to reverse the scattered phenotype of the HGF/SF-producing cells. In addition spheroids of HGF/SF-producing cells are dispersed into 3D collagen gels suggesting an increase of invasive properties of these cells. When injected in nude mice, these HGF/SF-producing cells induce tumors appearing more rapidly than did those obtained with untransfected cells. These results show that HGF/SF can promote motility and invasive properties of NBT-II bladder carcinoma cells and also confers a tumorigenic advantage when acting as an autocrine factor.
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PMID:Creation of an hepatocyte growth factor/scatter factor autocrine loop in carcinoma cells induces invasive properties associated with increased tumorigenicity. 813 12

The progressive growth of solid tumors is dependent on the tumor ability to recruit new blood vessels from the surrounding host tissues. We show here that acidic Fibroblast Growth Factor (FGF-1) produced by a rat bladder carcinoma transfected cell line (NBT-II cells) is a potent inducer of angiogenesis. After injection in nude mice, NBT-II cells transfected with FGF-1 form rapidly growing carcinomas which are highly vascularized, whereas carcinoma cells producing a biologically active form of FGF-4 behave like non-producer cells. The vasculature of the tumors obtained with NBT-II cells producing a secreted form of FGF-1 is dramatically expanded but lacking in some places a complete endothelial lining. Conditioned medium from these cells induce formation of capillary-like structures in vitro, whereas those of FGF-4 and non-secreting FGF-1 producing cells failed to induce such structures. Our results indicate that the expression of FGF-1 may promote tumor growth, at least in part, by inducing angiogenesis, and that the acquired ability of tumor cells to secrete FGF-1 but not FGF-4, may result in aberrant neovascularization of the tumor.
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PMID:FGF-1 but not FGF-4 secreted by carcinoma cells promotes in vitro and in vivo angiogenesis and rapid tumor proliferation. 852 62

We have investigated the role of integrins in the epithelial to mesenchymal transition (EMT) induced by either collagen or fibroblast growth factor-1 (FGF-1) in the rat bladder carcinoma cell line NBT-II. The major collagen-binding receptor is the alpha 2 beta 1 integrin. An increase in expression of alpha 2 beta 1 integrin coincided with EMT induced by either collagen or FGF-1. When both inducers were present, a further increase in alpha 2 expression was observed which correlated with an enhancement in the speed of locomotion. Overexpression of human alpha 2 in NBT-II cells did not trigger EMT but rendered cells more sensitive to the dispersing effect of collagen and FGF-1. Anti-human alpha 2 blocking antibodies affected cell scattering and motility induced by either collagen or FGF-1. These data demonstrate that alpha 2 beta 1 integrin is the mediator of the cell scattering effect induced by collagen. They also indicate that a functional alpha 2 integrin is essential for the motile behavior of NBT-II cells during the FGF-1 induced EMT.
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PMID:Alpha 2 beta 1 integrin is required for the collagen and FGF-1 induced cell dispersion in a rat bladder carcinoma cell line. 896 64

The comparative biological properties of NBT-II cells, a rat bladder carcinoma cell line constitutively expressing FGF-1 and FGF-2 were analysed in nude mice. FGF-1 is not secreted by the transfected cells unless the cDNA contains a signal sequence; conversely, NBT-II cells transfected with FGF-2 coding sequence produce and secrete the factor in a biologically active form. Bovine brain capillary endothelial cells are stimulated to proliferate upon addition of medium conditioned by the FGF-2-producing cells and this activity can be abrogated by the addition of anti-FGF-2 blocking antibodies. In addition, the FGF-2-containing medium, which cannot stimulate NBT-II cells due to absence of appropriate receptors, is able to induce scattering of NBT-II cells expressing the FGFR1. It has been reported previously that FGF-1-producing cells are highly tumorigenic in nude mice and induce carcinoma with a period of latency reduced from 6 to 5 weeks when compared to parental NBT-II cells. In contrast, NBT-II cells producing FGF-2 are no more tumorigenic than parental cells, indicating that FGF-1 and FGF-2 have different oncogenic properties in carcinoma. FGF-1 and FGF-2 are potent antiogenic factors that trigger the host endothelial cells. VEGF, another potent angiogen was found to be expressed in small amounts by NBT-II cells and to be expressed in reduced amount in the FGF-producing cells. In the NBT-II system in vivo FGF-1 and FGF-2 are highly and comparatively angiogenic in the resultant carcinoma and this occurs in the absence of production of significant amounts of VEGF by the carcinoma cells. Taken together, our results indicate that activated angiogenesis is not sufficient for rapid tumor expansion. FGF-1 behaves as a tumorigenic factor in the NBT-II bladder carcinoma cell model, whereas expression and secretion of large amounts of FGF-2 are not sufficient for increasing tumor growth.
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PMID:FGF-2 and FGF-1 expressed in rat bladder carcinoma cells have similar angiogenic potential but different tumorigenic properties in vivo. 903 74

We have demonstrated previously that Src controls the epidermal growth factor (EGF)-induced dispersion of NBT-II carcinoma epithelial cells. Here we show that while only Src and Yes were expressed and activated by EGF, microinjected kinase-inactive mutants of Src (SrcK-) and Fyn (FynK-) were able to exert a dominant-negative effect on the scattering response. Both SH2 and SH3 domains of FynK- were required for inhibition of cell scattering. Expression of dominant-negative N17Ras also abrogated EGF-induced dispersion, showing that Ras is another regulator of cell dispersion. Expression of SrcK- did not alter EGF-evoked Shc tyrosine phosphorylation, Shc-Grb2 complex formation and MAPK activation, three elements of the Ras pathway. Furthermore, the expression of Jun-Fos and Slug rescued the block induced by N17Ras but not by SrcK-, showing that Src kinases and Ras operate in separate pathways. In addition, actinomycin D inhibition of RNA synthesis repressed the ability of the activated mutant L61Ras but not that of F527Src to induce epithelial cell scattering. Since tyrosine phosphorylation of cytoskeleton-associated proteins pp125FAK and cortactin were abolished in EGF-stimulated SrcK- cells, we concluded that, in contrast to Ras, Src kinases may control epithelial cell dispersion in the absence of gene expression and by directly regulating the organization of the cortical cytoskeleton.
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PMID:Src and Ras are involved in separate pathways in epithelial cell scattering. 931 48

The laminin family of extracellular matrix glycoproteins plays a major role in cell migration and differentiation and in tumor cell invasion. As previously shown, the laminin deposited by normal and malignant rat liver epithelial cells in their extracellular matrix (ECM) and into their ECM migration tracks does not contain a typical (EHS-like) alpha 1 heavy chain. By RT-PCR screening we have now identified two alpha chains among a total of five additional laminin chains produced by these cells. Three of the newly identified chains were not previously known for the rat. Their sequences have been deposited in the EMBL nucleotide sequence data bank. The alpha 5 chain now identified is expressed at comparably high levels by both the normal and the malignant liver epithelial cells. The chain is also expressed in fetal liver together with the alpha 2 and beta 2 chains, but it is only vestigially expressed in the mature organ as shown by RT-PCR. These results suggest for alpha 5 a role in development and production of the chain by only a small subset of cells in adult liver. At the level of detection used, no changes were observed in regenerating liver after partial hepatectomy. In addition to the alpha 5 chain, the cultured cells express the beta 1 and beta 2 light chains, indicating the expression of more than one laminin isoform by the same cell line. The expression of the alpha 5 chain and of the other new non-EHS isoform chains was also analyzed in various tissues. The malignant liver epithelial cells, but not their nontumorigenic parental cells, also express, in addition to the alpha 5 chain the alpha 2 chain, which is expressed at high level by the NBT II bladder carcinoma cell line, suggesting a relationship with malignancy.
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PMID:Laminin alpha 5, a major transcript of normal and malignant rat liver epithelial cells, is differentially expressed in developing and adult liver. 941 68

The product of a GFP-actin gene fusion, permanently or transiently transfected in diverse mammalian cell lines, was shown to be a suitable, intrinsic probe of both the organization and dynamics of the actin cytoskeleton. In live Swiss 3T3 and NIH 3T3 cells, the fusion protein was found to accumulate in lamellipodia, filopodia, focal contacts and stress fibers. Furthermore, comparisons of fluorescence images of GFP-actin and Cy3.5-phalloidin, an independent marker of F-actin, in permeabilized cells showed a complete overlap of the two fluorescence signals. In GFP-actin-transfected Hela cells that had been infected with Listeria monocytogenes, the fluorescence of the fusion protein was shown to dynamically associate in the F-actin rich comet tail that formed behind a motile bacterium. In stable transfectants of PC12 cells, GFP-actin constituted on the average 5% of the total actin - these cells exhibited normal growth behavior and responded to treatment with nerve growth factor by extending neurite-like extensions, the filopodia-like tips of which were densely packed with filamentous GFP-actin. Finally, the photobleaching decay time of GFP-actin in live cells of 63 seconds was much longer than that of fluorescein-labeled actin conjugates and little or no damage to the cytoskeleton was found during the photobleaching of GFP-actin. Having shown the suitability of GFP-actin as a probe of the cytoskeleton, its fluorescence was used in long-term imaging studies aimed at documenting changes in the cytoskeleton of rat bladder NBT-II carcinoma cells during the 24-hour growth factor-mediated epithelia to mesenchyme transformation. The intrinsic fluorescent probe was also used to investigate the organization of the actin cytoskeleton and behavior of individual mesenchyme NBT-II cells slowly migrating through a colony of epithelia cells.
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PMID:The suitability and application of a GFP-actin fusion protein for long-term imaging of the organization and dynamics of the cytoskeleton in mammalian cells. 984 Apr 57

A community effect was found to occur between heterogeneous tumor cell populations leading to an overall increased tumorigenicity without a clonal dominance of the more tumorigenic clone. In the rat bladder carcinoma cell line NBT-II, this effect appears mediated by the Fibroblast Growth Factor-1 (FGF-1) through either a direct or an indirect signaling pathway. Neovascularization induced by FGF-1 was found not to be responsible for the community effect. The present study shows that the community effect does not involve a direct FGF-1 signaling since tumor cells expressing a dominant-negative FGF receptor mutant were still responding to the highly tumorigenic FGF-1 expressing cells. Tumors arising from inoculates of the FGF-1 producing NBT-II cells mixed with non tumorigenic epithelial MDCK cells contain only the tumorigenic cells indicating that MDCK cells may exerce a helper effect for the growth of the tumor not dependant on their own growth. Therefore the helper function of MDCK cells must be distinguished from a community effect where the contribution of low tumorigenic cells not only provides an in vivo growth advantage to few highly tumorigenic cells but become themselves highly tumorigenic indicating that the community effect may require cell-cell specific cooperativity independent from an helper effect.
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PMID:The community effect in FGF-1 mediated tumor progression of a rat bladder carcinoma does not involve a direct paracrine signaling. 992 89

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