UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Since one crucial step in tumor progression consists of the acquisition of invasive and metastatic properties, it is important to analyze the mechanisms used by cancer cells to disperse. Among the possible mechanisms of cell dispersion, cell motility appears as a central phenomenon that still needs to be understood at the molecular level. Our experimental approach to the contribution of cell motility in carcinoma cell dissemination is based on the study of the NBT-II rat bladder carcinoma cell line. The epithelial cell line gives rise to isolated, actively migrating, fibroblast-like cells in response to specific stimuli (collagens and acidic fibroblast growth factor [aFGF]). Analysis of the scattering response indicates that the different stimuli can synergize, leading to increased motility and invasiveness. NBT-II cells have two types of response to aFGF: they can either proliferate or scatter. In addition, the two responses are mutually exclusive, suggesting that the cell status can dictate whether or not tumor cells will disperse after exposure to a scatter factor. Finally, recent studies on the involvement of epithelial-specific cadherins in the process of aFGF-induced cell scattering indicate that a sustained expression of E-cadherin is not sufficient to protect cells from dispersing. In conclusion, our experimental model offers the opportunity to dissect the molecular events leading to tumor cell dissemination.
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PMID:Involvement of cell motility in tumor progression. 751 90

Tumor progression involves the emergence of cell variants with increased proliferative and invasive potentialities. The acquisition of the invasive and metastatic behavior is associated with modulation of cell-cell and cell-substrate interactions. Tumor cells have to dissociate from the primary tumor and migrate through the basal lamina and the surrounding stroma before reaching the vessels. An aberrant expression of some growth factors and their cognate receptors, may contribute to an increase malignancy of tumor cells. We have postulated than such growth factors could be involved in the early events of metastatic spreading by altering cell interactions within a tumor, including proliferation, scattering and migration of tumor cells. In the rat bladder carcinoma NBT-II cell experimental model, we have shown that FGF-1 is a multifunctional factor during tumor progression; FGF-1 acts as a mitogenic factor, a scatter factor, an angiogenic factor, an inducer of matrix degradating enzymes and a tumorigenic factor. NBT-II cells producing constitutively FGF-1 are more invasive, tumorigenic and metastatic than non-producing cells. However, we have shown that within a tumor, FGF-1 producing cells are not dominant in vivo but rather confer by a community effect an "en bloc" behavior to the whole cell collective. This effect could be established either directly by a paracrine mechanism or indirectly by other induced factors. We provide evidence for a novel concept in tumor biology: tumor progression may result from a community effect mediated by a growth/scatter factor produced by a minority of the carcinoma cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Molecular aspects of invasiveness and metastasis]. 754 9

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 role of FGF-2 in tumor progression and tumor cell invasiveness was investigated using the rat bladder carcinoma cells NBT-II, which do not constitutively express FGF-2 or its membrane-spanning receptor. The NBT-II cells were transfected using expression vectors encoding either the 18 kD or the 24 kD isoform of FGF-2. The 24 kD isoform contains a nuclear localization signal. The transfected NBT-II cells that expressed 18 kD FGF-2 produced and secreted this factor as the biologically active form and retained an epithelial morphology. When injected to nude mice, the tumorigenic potential of these cells was not increased over that of non-transfected NBT-II cells; however, although the time to tumor development was long, the tumors were highly vascularized, indicating secretion of the angiogenic factor FGF-2. The transfected NBT-II cells that expressed 24 kD FGF-2 varied in their morphological appearance and did not secrete FGF-2; immunofluorescence and Western-blot studies showed that the FGF-2 was mainly intranuclear. When injected to nude mice, these cells produced tumors and migrated not only to the lymph nodes but also to the lungs where they produced metastases. In aggregate, these data indicate that stimulation of angiogenesis is not sufficient to increase tumor growth and that nuclear FGF-2 acts as a tumorigenic and metastasis-promoting factor in the NBT-II carcinoma model.
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PMID:[Impact on tumor angiogenesis and tumor progression of expression of the 18 kd and 24 kd isoforms of FGF-2]. 1037 8

Genes differentially expressed by a rat bladder carcinoma NBT-II cells and their in-vivo-selected metastatic M-NBT-II variant were analysed. Amplification and cloning of a 277-bp B sequence, exclusively expressed by the M-NBT-II cells, were performed, and this sequence was detected as a 6.7-kb RNA. This fragment shares 46-50% identities with the gag-related protein of mouse and hamster Intracisternal A Particles (IAPs). Screening of a M-NBT-II cDNA library with the B probe selected a 1671-bp sequence corresponding to the 5' end of a novel retrotransposon member of the rat IAP family. This sequence has a strong identity with the Ecker Rat IAP (ERA-IAP) except for the B portion and has an open reading frame potentially encoding a 114-amino-acid gag retrovirus-related protein. Rearrangement of this new retrotransposon could be relevant with the tumor progression in our model system since it is only expressed in the M-NBT-II in-vivo-selected carcinoma metastasis.
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PMID:Metastatic rat carcinoma cells express a new retrotransposon. 1037 21

We have previously reported that an in vivo-selected metastatic variant of NBT-II rat carcinoma cells, M-NBT-II, produces and secretes a factor with cell-scattering activity, SFL, that is potentially involved in tumor progression. This biological activity was purified and characterized as a laminin 5 (LN5) -related protein. This SFL/LN5 protein consists of the (alpha)3, (beta)3 and (gamma)2 chains of expected sizes. Laminin 5 is a multifunctional secreted glycoprotein thought to be involved in cell adhesion and migration, mainly via its interaction with (alpha)3(beta)1 and (alpha)6(beta)4 integrins. SFL/LN5, and purified human laminin 5, induced the scattering and motility of MDCK cells and the formation of actin stress fibers and focal contacts in A549 cells. These events were dependent on activation of the small GTP-binding protein Rho. (Alpha)v colocalized with vinculin in the focal contacts of activated cells whereas (alpha)3 and (alpha)6 integrins did not. Blocking antibodies directed against (alpha)3 and (alpha)6 integrins or the laminin 5 integrin-binding site did not abolish SFL/LN5 biological activity, which, in contrast, was completely inhibited by heparin. Thus, SFL/LN5 activity in epithelial cell scattering and cytoskeletal reorganization is probably independent of integrin receptors.
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PMID:The SFL activity secreted by metastatic carcinoma cells is related to laminin 5 and mediates cell scattering in an integrin-independent manner. 1039 7

Various mechanisms of epithelial cell plasticity in morphogenesis have been studied at the genetic and molecular levels. Several control genes have been identified including genes encoding transcription factors and growth factor receptors. These mechanisms may be reactivated during the progression of carcinomas. One of the mechanisms underlying epithelial plasticity is the epithelial-mesenchymal transition. This process has been extensively studied using the NBT-II bladder carcinoma cell line. Cells of this line undergo a reversible transition following exposure to several growth factors including FGF-1, EGF, TGFalpha and SF/HGF, which activate tyrosine kinase surface receptors. Two separate transduction pathways have been identified. The transient activation of c-Src is involved in cytoskeleton remodeling whereas the Ras pathway controls the transcription of genes such as the transcription factor Slug which is involved in the internalization of desmosomes. These two pathways cooperate to induce the morphological transition, scattering and locomotion of fibroblast-like cells. Growth/scatter factor-producing NBT-II cells are more invasive than cells that do not contain this factor, in orthotopic confrontation assay. In vivo, these cells are very tumorigenic and may confer a more malignant phenotype on parental cells via a community effect. The role of several growth factors and their receptors has been investigated in human bladder carcinomas. A subset of these tumors with poor outcomes produce low levels of FGFR2-IIIb. The synthesis of this receptor de novo in bladder cell lines reduces proliferation in vitro and tumor growth in nude mice. FGFR2-IIIb functions as a tumor suppressor, consistent with the differentiation-inducing capacities of FGF receptors in the suprabasal cells of the skin. FGFR2-IIIb signaling may be involved in the maintenance of E-cadherin, the prototype epithelial adhesion molecule, which is only downregulated in a fraction of tumors with low FGFR2-IIIb synthesis. Human bladder tumors may also activate autocrine loops such as that for EGFR and their ligands, as already demonstrated for murine bladder tumors. Therefore, our results suggest that multifunctional growth factors and their receptors are involved in cell proliferation and epithelial cell plasticity, acting either as positive or negative regulators of tumor progression. The effect on the morphological transition is also clearly relevant to the mechanism governing dissemination and the formation of micrometastatic tumor cells. The extrapolation of these discoveries to human carcinomas should provide markers facilitating the more accurate prediction of the biological behavior of a given tumor and identify clinically and pathologically significant parameters. The identification of critical changes in the growth factor pathways involved in tumor progression will not only provide insight into the genetic and molecular basis of this process, but should also identify targets for new therapies.
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PMID:Epithelial cell plasticity in development and tumor progression. 1050 44

FGF-1 and FGF-2 are pleiotropic growth factors for many cell types, operating through the activation of specific transmembrane FGF receptors (FGFRs). The role of these factors in tumor progression was investigated, with specific discrimination between their autocrine and non autocrine cellular activity. The rat bladder carcinoma NBT-II cells were engineered to produce FGF-1 or 18 kDa FGF-2 in the presence or absence of their specific receptor. Non-autocrine cells that produced FGF-1 or FGF-2 but lacked FGFRs were epithelial and reminiscent of the parental NBT-II cells. Whilst autocrine cells, which both constitutively produced and secreted the growth factor and expressed FGFRs, had a highly invasive mesenchymal phenotype. Correspondingly, the autocrine cells were highly tumorigenic in vivo compared to the parental and non-autocrine cells, which correlated with the increased production of uPAR and active uPA and increased in vitro invasive potential. Although all cells produced VEGF, only tumors derived from cells that produced FGF-1 or FGF-2 were highly vascularized, suggesting that these two growth factors could be involved in the angiogenic process by activating host endothelial cells. As a result of activation of the FGFR in autocrine cells, changes in cell morphology and an increase in the invasive and tumorigenic properties were observed, however no in vitro or in vivo differential functions between FGF-1 and FGF-2 could be identified in this system. In conclusion, our data demonstrates that rapid tumor development is not dependent upon increased tumor vascularization, suggesting that 'basal' angiogenesis, probably mediated by VEGF, is sufficient to support tumor growth.
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PMID:Rapid tumor development and potent vascularization are independent events in carcinoma producing FGF-1 or FGF-2. 1244 48

Fibroblast growth factor (FGF)-1 and -2 have potent biological activities implicated in malignant tumor development. Their autocrine and nonautocrine activity in tumor progression of carcinoma was investigated in the NBT-II cell system. Cells were manipulated to either produce and be autocrine for FGF-1 or -2 or to only produce but not respond to these factors. The autocrine cells are highly invasive and tumorigenic and the determination of specific targets of FGF/fibroblast growth factor receptor (FGFR) signaling was assessed. In vitro studies showed that nonautocrine cells behave like epithelial parental cells, whereas autocrine cells have a mesenchymal phenotype correlated with the overexpression of urokinase plasminogen activator receptor (uPAR), the internalization of E-cadherin, and the redistribution of beta-catenin from the cell surface to the cytoplasm and nucleus. uPAR was defined as an early target, whereas E-cadherin and the leukocyte common antigen-related protein-tyrosine phosphatase (LAR-PTP) were later targets of FGF signaling, with FGFR1 activation more efficient than FGFR2 at modulating these targets. Behavior of autocrine cells was consistent with a decrease of tumor-suppressive activities of both E-cadherin and LAR-PTP. These molecular analyses show that the potential of these two growth factors in tumor progression is highly dependent on specific FGFR signaling and highlights its importance as a target for antitumor therapy.
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PMID:Targets of fibroblast growth factor 1 (FGF-1) and FGF-2 signaling involved in the invasive and tumorigenic behavior of carcinoma cells. 1528 42

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