Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The generation of invasiveness in transformed cells represents an essential step of tumor progression. We have previously shown that MDCK epithelial cells, which are deprived of intracellular adhesion by the addition of anti-Arc-1/uvomorulin antibodies, become invasive for collagen gels and embryonal heart tissue (Behrens, J., M. M. Mareel, F. M. Van Roy, and W. Birchmeier. 1989. J. Cell Biol. 108: 2435-2447.). Here we examined whether invasiveness is also induced by scatter factor, which is known to dissociate epithelial cells (Stoker, M., E. Gherardi, M. Perryman, and J. Gray. 1987. Nature (Lond.). 327:239-242.). Scatter factor was purified to homogeneity from conditioned medium of human fibroblasts by heparin-Sepharose chromatography, followed by cation exchange chromatography, gel filtration, or preparative SDS gel electrophoresis. We found that scatter factor represents a 92,000 mol wt glycoprotein which, apparently, is converted by limited proteolysis into disulfide-linked 62,000 and 34/32,000 mol wt subunits. Reversed phase HPLC and sequence analysis of tryptic peptides confirmed the suggested molecular structure, and revealed further that scatter factor exhibits sequence similarities to hepatocyte growth factor and to plasminogen. Purified scatter factor in fact induces the invasiveness into collagen matrices of MDCK epithelial cells, and induces or promotes the invasiveness of a number of human carcinoma cell lines. Apparently, the effect on the human cells depends on their respective degree of differentiation, i.e., cell lines with a less pronounced epithelial phenotype were more susceptible to the factor. Scatter factor does not seem to influence synthesis, steady-state level, and phosphorylation of the cell adhesion molecule Arc-1/uvomorulin. Thus, scatter factor represents a clearly defined molecular species which induces, in vitro, the progression of epithelial cells to a more motile, i.e., invasive phenotype.
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PMID:Scatter factor: molecular characteristics and effect on the invasiveness of epithelial cells. 214 76

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

nm23H1 has properties of a metastasis suppressor gene. Although its mechanism of action is unknown, nm23 has been implicated in transforming growth factor beta 1 (TGF beta 1) signal transduction. In an earlier study we decreased nm23 mRNA levels 2- to 8-fold by antisense phosphorothiolated oligonucleotides in two HT29 colon carcinoma sublines at different stages in tumor progression with different responses to TGF beta 1: the HD3 subline, which shows TGF beta 1-induced growth arrest and differentiation; and the more tumorigenic U9 subline, whose growth and invasion are stimulated by TGF beta 1. Only TGF beta 1-mediated responses in HD3 cells were inhibited by nm23 antisense oligos, suggesting that nm23 functions in only one TGF beta 1 signaling pathway. In the current report we have extended this study to cell motility. HD3 motility was increased by nm23 phosphorothiolated antisense oligos which decrease nm23 mRNA levels, while HD3 cell motility was conversely decreased by TGF beta 1 which increases nm23 mRNA levels. HD3 motility was not increased by basic FGF, TGF beta 1 or TGF alpha, while the 13-fold higher basal motility of U9 cells was stimulated 3-fold by basic FGF, 4-fold by TGF beta 1 and 5-fold by TGF alpha, but not by scatter factor. Differences in motility and response to motility factors could not be ascribed to differences in either basal levels of proteases or modulation of their levels by TGF beta 1. Both HD3 and U9 cells displayed equal levels of urokinase activity and mRNA, equal expression of the metalloproteinase inhibitor TIMP-1, and no detectable collagenases by zymography. No differential response to TGF beta 1 was seen in any of these assays. Thus limited cell motility and lack of response to motility factors in HD3 colon cancer cells could be correlated with expression of nm23 active in signal transduction.
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PMID:Colon carcinoma cells with inactive nm23 show increased motility and response to motility factors. 755 87

Hepatocyte growth factor (scatter factor) and its receptor, the c-met proto-oncogene product (c-MET), have been implicated in embryogenesis, tissue reorganization, and tumor progression. Little is known, however, of the expression and functional significance of these molecules in prostatic cells and tissue. In this investigation, we assessed the expression of hepatocyte growth factor (HGF) and c-MET in prostatic tissues and cell lines and also determined the effect of purified recombinant HGF on cell proliferation and scattering of prostatic carcinoma cell lines. HGF was expressed by human prostatic stromal myofibroblasts in primary culture but not by three human prostatic carcinoma cell lines (LNCaP, DU 145, and PC-3) as assessed by Northern blot analysis. HGF was also detected by reverse transcriptase-polymerase chain reaction in both benign and malignant tissues from radical prostatectomy specimens. c-MET transcripts were identified by Northern blot in two androgen-insensitive human prostatic carcinoma cell lines (DU 145 and PC-3) but not the androgen-sensitive LNCaP cell line. Additional evidence of linkage of androgen responsiveness and c-MET was provided by experiments in which androgen deprivation of normal rat prostates via castration produced a marked up-regulation of c-MET expression as determined by Northern blot and immunohistochemistry. c-MET protein was detected by immunohistochemical analysis in a substantial percentage (58 of 128 or 45%) of prostatic carcinomas and was found more often in metastatic growths of human prostatic carcinoma (15 of 20 patients) compared with primary tumors (43 of 108 patients; P < 0.005). Moreover, in Dunning R-3327 rat prostatic carcinoma cell lines, c-MET expression was highest in the androgen-insensitive subline with the highest metastatic capacity. Purified recombinant human HGF induced dose-dependent cellular proliferation and scattering in the DU 145 carcinoma cell line. These data indicate that HGF may function in the prostate gland as a paracrine growth factor, with synthesis by stromal cells and with biological target cells being the epithelial cells. Expression of the HGF receptor, c-MET, is up-regulated by androgen deprivation and c-MET appears to be preferentially expressed on androgen-insensitive, metastatic cells, suggesting a possible linkage of c-MET expression with prostatic carcinoma progression.
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PMID:Hepatocyte growth factor and its receptor (c-MET) in prostatic carcinoma. 763 32

Signals transduced by the met tyrosine kinase, which is the receptor for scatter factor/hepatocyte growth factor, are of major importance for the regulation of epithelial cell motility, morphogenesis, and proliferation. We report here that different sets of tyrosine residues in the cytoplasmic domain of the met receptor affect signal transduction in epithelial cells in a positive or negative fashion: mutation of the C-terminal tyrosine residues 13-16 (Y1311, Y1347, Y1354, and Y1363) reduced or abolished ligand-induced cell motility and branching morphogenesis. In contrast, mutation of the juxtamembrane tyrosine residue 2 (Y1001) produced constitutively mobile, fibroblastoid cells. Furthermore, the gain-of-function mutation of tyrosine residue 2 suppressed the loss-of-function mutations of tyrosine residue 15 or 16. The opposite roles of the juxtamembrane and C-terminal tyrosine residues may explain the suggested dual function of the met receptor in both epithelial-mesenchymal interactions and tumor progression.
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PMID:Mutation of juxtamembrane tyrosine residue 1001 suppresses loss-of-function mutations of the met receptor in epithelial cells. 770 91

Inappropriate expression of Met, the receptor for hepatocyte growth factor/scatter factor, has been implicated in sarcomagenesis via an autocrine mechanism. Sarcomas occur at high frequency in individuals with Li-Fraumeni syndrome as well as in p53-deficient mice. Here we show that these tumors express high levels of Met. Moreover, late passage fibroblast cell lines established from p53-deficient animals overexpress Met and can be tumorigenic in athymic nude mice, suggesting that progression occurs in vitro. The tumor explants display increased hepatocyte growth factor/scatter factor expression and Met turnover, indicating that autocrine Met activation contributes to tumor progression. Thus, the loss of wild-type p53 appears to greatly enhance the opportunity for inappropriate Met expression. Loss of p53 function does not by itself cause transformation, but inappropriate Met expression may be an important factor in sarcomagenesis.
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PMID:Met proto-oncogene product is overexpressed in tumors of p53-deficient mice and tumors of Li-Fraumeni patients. 772 66

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

Hepatocyte growth factor/scatter factor (HGF/SF) is a stromally derived modulator of epithelial cell proliferation and morphology. To better assess the potential role of HGF/SF in tumor progression we sought to identify factors and biological conditions which regulate its expression. We show that several adult human primary fibroblast cultures from breast and prostate produce HGF/SF. HGF expression in the MRC-5 human fetal lung fibroblast cell line is stimulated by conditioned media harvested from human breast tumor cell lines (MCF-7, T47D, and MDA-MB-231). In contrast, both indirect and direct coculture of each of these tumor lines with MRC-5 fibroblasts down-regulates HGF/SF expression. Finally, we show that MRC-5 HGF expression is inhibited by several known peptide growth factors, including transforming growth factor beta, epidermal growth factor, and transforming growth factor alpha.
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PMID:Regulation of fibroblast hepatocyte growth factor/scatter factor expression by human breast carcinoma cell lines and peptide growth factors. 844 2

Cell motility, a primary component of tumor cell invasion, is a continuum of sequential events in which the cell extends pseudopodia, forms nascent attachments, assembles and contracts the cytoskeleton, and finally, as it translocates forward, disengages distal adhesions. What triggers cells to move? Substratum contact mediated by integrin adhesion receptors is important, but other signals such as chemokinetic factors appear to be required for continued crawling. It is now apparent that integrins do not simply bind cells to matrix in a Velcro-like fashion, but also are potent signaling molecules. Initial engagement of integrins induces their condensation into focal contacts, forming anchors to the extracellular matrix and discrete signal-transducing complexes on the cytoplasmic surface. A number of growth factors, through either autocrine or paracrine pathways, can activate the cellular machinery that mobilizes the cell. Thus, these two classes of receptors--the integrin receptors that bind specific extracellular adhesion molecules, and growth factor receptors that bind their respective ligands--can regulate cell locomotion. Not surprisingly, there is 'cross-talk' between integrin and growth factor receptors that occurs through their common intracellular signaling pathways. In this way, each receptor type can either amplify or attenuate the other's signal and downstream response. An example of growth factor-induced motility is the epithelial-mesenchymal transition induced by hepatocyte growth factor/scatter factor (HGF/SF). When bound to its receptor, the c-met proto-oncogene product, HGF/SF induces a phenotypic conversion that appears to be an important aspect of tumor progression in malignant carcinomas. The motogenic response produced by HGF/SF in carcinoma cells occurs in discrete steps in which integrins and focal adhesion kinase (p125FAK) are first recruited to focal contacts. This is rapidly followed by cell spreading, disruption of focal adhesions and cell-cell contacts, and, finally, cell crawling. The precise mechanism by which growth factors such as HGF/SF and its receptor induce this motogenic response and modulate integrin function has not been clearly defined but appears to involve several signaling pathways. Understanding the process by which growth factor and integrin receptors interact and regulate motility may suggest novel targets for therapeutic intervention.
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PMID:Growth factor regulation of integrin-mediated cell motility. 854 69


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