Role of hepatocyte growth factor activator (HGF activator) in invasive growth of human glioblastoma cells in vivo

Hepatocyte growth factor/scatter factor (HGF/SF) is a multifunctional growth factor that is involved in invasive growth of tumor cells via its receptor MET, a protein product of c-met proto-oncogene. HGF activator (HGFA) is a serine proteinase responsible for the activation of proform of HGF/SF (proHGF/SF). In our study, we examined the effects of engineered expression of HGFA on 2 human glioblastoma cell lines (YKG-1 and U251). Both cells expressed MET, while only YKG-1 expressed endogenous proHGF/SF. Enhanced MET phosphorylation and increased migratory activity were induced by the expression of HGFA in YKG-1 cells in vitro in the presence of thrombin, which is a known activator of proHGFA. In contrast, MET phosphorylation was consistently observed in U251 that lacked endogenous HGF/SF, suggesting ligand-independent activation of MET in this cell line. Consequently, the expression of HGFA in U251 did not enhance the MET phosphorylation and following cellular response even with the thrombin treatment. However, addition of exogenous proHGF/SF resulted in enhanced migratory activity of HGFA-expressing U251 cells in the presence of thrombin in vitro. The engineered HGFA expression resulted in significantly enhanced tumor growth with increased vascular density in vivo when YKG-1 cells were implanted in nude mouse brain. This effect was not observed in U251 lacking endogenous proHGF/SF. These results indicate the possible existence of multiple mechanisms of MET activation in glioblastomas and that the activation system of proHGF/SF is important in progression of glioblastomas that express endogenous proHGF/SF and require ligand-dependent MET activation.     

Hepatocyte growth factor-stimulated renal tubular mitogenesis: effects on expression of c-myc, c-fos, c-met, VEGF and the VHL tumour-suppressor and related genes.

Hepatocyte growth factor (HGF/SF) is a potent renal proximal tubular cell (PTEC) mitogen involved in renal development. HGF/SF is the functional ligand for the c-met proto-oncogene, and germline c-met mutations are associated with familial papillary renal cell carcinoma. Somatic von Hippel-Lindau disease tumour-suppressor gene (VHL) mutations are frequently detected in sporadic clear cell renal cell carcinomas (RCC), and germline VHL mutations are the commonest cause of familial clear cell RCC. pVHL binds to the positive regulatory components of the trimeric elongin (SIII) complex (elongins B and C) and has been observed to deregulate expression of the vascular endothelial growth factor (VEGF) gene. HGF/SF has similarly been reported to up-regulate expression of the VEGF gene in non-renal experimental systems. To investigate the mechanism of HGF/SF action in PTECs and, specifically, to examine potential interactions between the HGF/c-met and the VHL-mediated pathways for renal tubular growth control, we have isolated untransformed PTECs from normal kidneys, developed conditions for their culture in vitro and used these cells to investigate changes in mRNA levels of the VHL, elongin A, B and C, VEGF, c-myc, c-fos and c-met genes after HGF/SF exposure. Significant elevations in the mRNA levels of VEGF, c-myc, c-fos, c-met and elongins A, B and C, but not VHL, were detected after HGF/SF stimulation of human PTECs (P < 0.02), with a consistent order of peak levels observed over successive replicates (c-fos at 1 h, VEGF at 2-4 h, c-myc, at 4 h, followed by c-met and all three elongin subunits at 8 h). This study highlights the spectrum of changes in gene expression observed in PTECs after HGF/SF stimulation and has identified possible candidate mediators of the HGF/SF-induced mitogenic response. Our evidence would suggest that the changes in PTEC VEGF expression induced by HGF/SF are mediated by a VHL-independent pathway.     

Scatter factor/hepatocyte growth factor protects against cytotoxic death in human glioblastoma via phosphatidylinositol 3-kinase- and AKT-dependent pathways

We have shown recently that the multifunctional growth factor, scatter factor/hepatocyte growth factor (SF/HGF), and its receptor c-met enhance the malignancy of human glioblastoma through an autocrine stimulatory loop (R. Abounader et al., J. Natl. Cancer Inst., 91: 1548-1556, 1999). This report examines the effects of SF/HGF:c-met signaling on human glioma cell responses to DNA-damaging agents. Pretreating U373 human glioblastoma cells with recombinant SF/HGF partially abrogated their cytotoxic responses to gamma irradiation, cisplatin, camptothecin, Adriamycin, and Taxol in vitro. This cytoprotective effect of SF/HGF occurred at least in part through an inhibition of apoptosis, as evidenced by diminished terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling index and reduced DNA laddering. Anti-c-met U1/ribozyme gene transfer inhibited the ability of SF/HGF to protect against single-strand DNA breakage, DNA fragmentation, and glioblastoma cell death caused by DNA-damaging agents, demonstrating a requirement for c-met receptor function. Phosphorylation of the cell survival-promoting kinase Akt (protein kinase B) resulted from SF/HGF treatment of U373 cells, and both Akt phosphorylation and cell survival induced by SF/HGF were inhibited by phosphatidylinositol 3-kinase inhibitors but not by inhibitors of mitogen-activated protein kinase kinase or protein kinase C. Cytoprotection by SF/HGF in vitro was also inhibited by transient expression of dominant-negative Akt. Transgenic SF/HGF expression by intracranial 9L gliosarcomas reduced tumor cell sensitivity to gamma irradiation, confirming the cytoprotective effect of SF/HGF in vivo. These findings demonstrate that c-met receptor activation by SF/HGF protects certain glioblastoma cells from DNA-damaging agents by activating phosphoinositol 3-kinase-dependent and Akt-dependent antiapoptotic pathways.     

Nk4, a new HGF/SF variant, is an antagonist to the influence of HGF/SF on the motility and invasion of colon cancer cells

Hepatocyte Growth Factor/Scatter Factor (HGF/SF) is a heterodimeric molecule that plays a key role in the regulation of migration, invasion and angiogenesis in cancer, via activation of its receptor, c-met. HGF/SF is composed of an alpha-chain, containing the N-terminal hairpin domain and 4 kringle domains, plus the serine protease-like beta-chain. We have examined here the properties of NK4, an HGF variant containing the N-terminal hairpin plus the 4 kringle domains, on tumour cell proliferation, dissociation and invasion using human colorectal cancer cells (HT115). The expression of HGF/SF and its receptor was also examined by RT-PCR and Western blotting. Analysis revealed NK4 to be an HGF/SF antagonist that, at a wide range of concentrations, did not exert any biological effects of its own. HT115 cells were shown to express the HGF/SF receptor mRNA and protein. HGF/SF-induced receptor tyrosine phosphorylation was suppressed, in a dose-dependent manner, upon addition of NK4, whereas the addition of NK4 alone caused no phosphorylation. Tumour cell motility was induced by HGF and inhibited by NK4. Furthermore, HGF/SF induced the invasion of cells through Matrigel basement membrane components, and again this induced invasion was suppressed by NK4. Our results show that the ability of HGF/SF to stimulate tumour cell motility and invasion, properties required for metastatic spread, can be inhibited by NK4. Thus, NK4 may have an important role in the control of cancer metastasis.     

Tumor suppressor protein VHL is induced at high cell density and mediates contact inhibition of cell growth.

In spite of the general recognition of von Hippel-Lindau (VHL) as a tumor suppressor gene, the physiological and pathological importance of VHL protein in cell growth regulation and tumorigenesis remains unclear. Here we show that in normal human renal proximal tubule epithelial cells (RPTEC), the steady-state amount of VHL protein is strictly regulated by cell density. The cellular VHL content is more than 100-fold higher in dense cultures than in sparse cultures. The increase in VHL protein at high cell density was also observed for NIH3T3 fibroblasts, suggesting the generality of the phenomenon. The growth rates of renal cell carcinoma cells lacking an intact VHL gene and their derivatives with wild-type or mutant VHL expression vector do not differ significantly when they are growing in log-phase. Importantly, however, there is a difference when they reach confluency: cells lacking wild-type VHL grew continuously, while cells expressing exogenous VHL protein showed relatively limited cell growth. Using an ecdysone-inducible VHL expressing cell line, we also show that the growth inhibition at high cell density can be released by attenuating the VHL expression. Taken together, we propose that VHL protein functions as a growth suppressor at high cell density, and this might be the basis of the tumor suppressor function of VHL.     

Inhibition of HGF/SF-induced breast cancer cell motility and invasion by the HGF/SF variant, NK4

NK4 is a variant form of HGF/SF, comprising the N-terminal and subsequent four kringle domains of mature HGF/SF. HGF/SF is a multifunctional cytokine that enhances the metastatic behaviour of tumour cells in vitro by stimulation of the c-met receptor tyrosine kinase and has been implicated in the development of tumour metastasis in vivo. The aims of this study were to further investigate the potential antagonistic effects of the recently described variant form of HGF/SF, NK4, on HGF/SF activity in breast cancer cells. All cell lines used expressed both the HGF/SF receptor gene and protein as shown by RT-PCR and Western blotting. NK4 inhibited HGF/SF-induced tumour cell invasion through an artificial basement membrane. Tumour cell motility and scattering induced by HGF/SF were also dramatically reduced by the inclusion of NK4. Immunoprecipitation studies revealed that NK4 inhibited the phosphorylation of the c-met receptor in response to HGF/SF. Treatment of these cells with NK4 alone did not have any significant effects on their metastatic behaviour. From this data we conclude that NK4 demonstrates significant antagonistic properties towards HGF/SF, inhibiting HGF/SF-stimulated breast tumour cell invasion, motility and migration. NK4 may therefore be of potential benefit in the development of anti-metastasis therapies.     

MET as a target for treatment of chest tumors

The receptor tyrosine kinase MET has been studied of a large variety of human cancers, including lung and mesothelioma. The MET receptor and its ligand HGF (hepatocyte growth factor) play important roles in cell growth, survival and migration, and dysregulation of the HGF-MET pathway leads to oncogenic changes including tumor proliferation, angiogenesis and metastasis. In small cell lung cancer (SCLC), non-small cell lung cancer (NSCLC), and malignant pleural mesothelioma (MPM), MET is dysregulated via overexpression, constitutive activation, gene amplification, ligand-dependent activation, mutation or epigenetic mechanisms. New drugs targeted against MET and HGF are currently being investigated in vitro and in vivo, with promising results. These drugs function at a variety of steps within the HGF-MET pathway, including MET expression at the RNA or protein level, the ligand-receptor interaction, and tyrosine kinase function. This paper will review the structure, function, mechanisms of tumorigenesis, and potential for therapeutic inhibition of the MET receptor in lung cancer and mesothelioma.     

Identification of novel VHL target genes and relationship to hypoxic response pathways

Upregulation of hypoxia-inducible factors HIF-1 and HIF-2 is frequent in human cancers and may result from tissue hypoxia or genetic mechanisms, in particular the inactivation of the von Hippel-Lindau (VHL) tumour suppressor gene (TSG). Tumours with VHL inactivation are highly vascular, but it is unclear to what extent HIF-dependent and HIF-independent mechanisms account for pVHL tumour suppressor activity. As the identification of novel pVHL targets might provide insights into pVHL tumour suppressor activity, we performed gene expression microarray analysis in VHL-wild-type and VHL-null renal cell carcinoma (RCC) cell lines. We identified 30 differentially regulated pVHL targets (26 of which were 'novel') and the results of microarray analysis were confirmed in all 11 novel targets further analysed by real-time RT-PCR or Western blotting. Furthermore, nine of 11 targets were dysregulated in the majority of a series of primary clear cell RCC with VHL inactivation. Three of the nine targets had been identified previously as candidate TSGs (DOC-2/DAB2, CDKN1C and SPARC) and all were upregulated by wild-type pVHL. The significance for pVHL function of two further genes upregulated by wild-type pVHL was initially unclear, but re-expression of GNG4 (G protein gamma-4 subunit/guanine nucleotide-binding protein-4) and MLC2 (myosin light chain) in a RCC cell line suppressed tumour cell growth. pVHL regulation of CDKN1C, SPARC and GNG4 was not mimicked by hypoxia, whereas for six of 11 novel targets analysed (including DOC-2/DAB2 and MLC2) the effects of pVHL inactivation and hypoxia were similar. For GPR56 there was evidence of a tissue-specific hypoxia response. Such a phenomenon might, in part, explain organ-specific tumorigenesis in VHL disease. These provide insights into mechanisms of pVHL tumour suppressor function and identify novel hypoxia-responsive targets that might be implicated in tumorigenesis in both VHL disease and in other cancers with HIF upregulation.     

Hepatocyte Growth Factor/scatter factor-induces phosphorylation of cortactin in A431 cells in a Src kinase-independent manner.

The Hepatocyte Growth Factor receptor transduces proliferating and scattering signals in epithelial and endothelial cells. We have explored potential interactions of the HGF/SF receptor beta-subunit (p145(beta MET)) with F-actin binding partners aiming to identify novel downstream effectors implicated in HGF/SF pluripotent signalling. Cortactin, a p80/85 F-actin binding protein, was found phosphorylated on tyrosine in response to HGF-SF in A431 human epidermoid carcinoma cells, expressing the HGF/SF receptor (c-MET). The HGF/SF receptor was enriched in the detergent-insoluble fraction and was found to co-precipitate with cortactin and to associate in vitro with cortactin. The Grb2 small adapter protein known to associate via its Src homology 2 domain (SH2) with the MET C-terminus, was also associated with cortactin. Transient transfection of A431 cells with dominant-negative Grb2 constructs has revealed that the Grb2-C-SH3 domain possesses a central role in cortactin phosphorylation in response to HGF/SF. Finally, tyrosine phosphorylation of cortactin was found uncoupled of endogenous c-Src kinase activity, thus further supporting the hypothesis that cortactin is a direct target of the MET kinase. We propose that cortactin may constitute a docking site for MET-derived signals within the cytoskeleton.     

Rho regulates the hepatocyte growth factor/scatter factor-stimulated cell motility of human oral squamous cell carcinoma cells

To investigate the effects of hepatocyte growth factor/scatter factor (HGF/SF) on the invasion and metastasis of human oral squamous cell carcinoma (SCC) cells, we examined cell motility and intercellular signal transduction of a human oral SCC cell line (SAS) obtained from the primary lesion of a tongue carcinoma. HGF/SF stimulation significantly enhanced the motility of SAS cells in a dose-dependent manner. Clostridium botulinum C3 exoenzyme (C3), which is known to selectively impair the function of Ras-related small G-protein p21rho (Rho), significantly reduced the motility of SAS cells. HGF/SF stimulation also enhanced the tyrosine phosphorylation of HGF receptors (c-Met) and focal adhesion kinase (FAK) on SAS cells, but C3 completely inhibited the phosphorylation of FAK. Furthermore, it was observed that Rho A protein, normally located around the nuclear area, was translocated to the membrane and levels in the cytolysate increased following HGF/SF stimulation with no change in Rho A mRNA. These results suggest that the activation of FAK caused by phosphorylation of c-Met may mediate the HGF/SF-induced motility of human oral SCC cells, and that Rho protein regulates the tyrosine phosphorylation of FAK through translocation from the nucleus to the membrane.     

Ron kinase transphosphorylation sustains MET oncogene addiction

Receptors for the scatter factors HGF and MSP that are encoded by the MET and RON oncogenes are key players in invasive growth. Receptor cross-talk between Met and Ron occurs. Amplification of the MET oncogene results in kinase activation, deregulated expression of an invasive growth phenotype, and addiction to MET oncogene signaling (i.e., dependency on sustained Met signaling for survival and proliferation). Here we show that cancer cells addicted to MET also display constitutive activation of the Ron kinase. In human cancer cell lines coexpressing the 2 oncogenes, Ron is specifically transphosphorylated by activated Met. In contrast, Ron phosphorylation is not triggered in cells harboring constitutively active kinase receptors other than Met, including Egfr or Her2. Furthermore, Ron phosphorylation is suppressed by Met-specific kinase inhibitors (PHA-665752 or JNJ-38877605). Last, Ron phosphorylation is quenched by reducing cell surface expression of Met proteins by antibody-induced shedding. In MET-addicted cancer cells, short hairpin RNA-mediated silencing of RON expression resulted in decreased proliferation and clonogenic activity in vitro and tumorigenicity in vivo. Our findings establish that oncogene addiction to MET involves Ron transactivation, pointing to Ron kinase as a target for combinatorial cancer therapy.     

The cytokine hepatocyte growth factor/scatter factor inhibits apoptosis and enhances DNA repair by a common mechanism involving signaling through phosphatidyl inositol 3' kinase

Scatter factor (SF) [aka. hepatocyte growth factor (HGF)] (designated HGF/SF) is a multifunctional cytokine that stimulates tumor cell invasion and angiogenesis. We recently reported that HGF/SF protects epithelial and carcinoma cells against cytotoxicity from DNA-damaging agents and that HGF/SF-mediated cytoprotection was associated with up-regulation of the anti-apoptotic protein Bcl-XL in cells exposed to adriamycin. We now report that in addition to blocking apoptosis, HGF/SF markedly enhances the repair of DNA strand breaks caused by adriamycin or gamma radiation. Constitutive expression of Bcl-XL in MDA-MB-453 breast cancer cells not only simulated the HGF/SF-mediated chemoradioresistance, but also enhanced the repair of DNA strand breaks. The ability of HGF/SF to induce both chemoresistance and DNA repair was inhibited by wortmannin, suggesting that these activities of HGF/SF are due, in part, to a phosphatidylinositol-3'-kinase (PI3K) dependent signaling pathway. Consistent with this finding, HGF/SF induced the phosphorylation of c-Akt (protein kinase-B), a PI3K substrate implicated in apoptosis inhibition; and an expression vector encoding a dominant negative kinase inactive Akt partially but significantly inhibited HGF/SF-mediated cell protection and DNA repair. These findings suggest that HGF/SF activates a cell survival and DNA repair pathway that involves signaling through PI3K and c-Akt and stabilization of the expression of Bcl-XL; and they implicate Bcl-XL in the DNA repair process.     

Met and hepatocyte growth factor/scatter factor signal transduction in normal melanocytes and melanoma cells.

The proto-oncogene c-MET encodes a transmembrane tyrosine kinase receptor for hepatocyte growth factor/scatter factor (HGF/SF). HGF/SF stimulates the proliferation and motility of various cell types. Because HGF/SF is also a melanocyte mitogen, we investigated the biological role of HGF/SF, including c-Met expression, activation and signal transduction, in normal and malignant human melanocytes. We show that HGF/SF is mitogenic in the presence of synergistic factors, such as basic fibroblast growth factor (bFGF) and mast cell growth factor (MGF) and that, by itself, it stimulates the motility of normal human melanocytes. The ligand also maintained high levels of tyrosinase activity and melanin content in theses cells. Signal transduction by HGF/SF included phosphorylation of tyrosyl residues on c-Met, a cascade of tyrosine phosphorylations on several other proteins and activation of microtubule-associated protein kinase/extracellular signal-regulated kinase. Met expression and activity are normal in human melanomas, and constitutive activity of HGF/SF in retrovirally infected autonomously proliferative mouse melanocytes is insufficient to confer the malignant phenotype. Our findings suggest that activation of Met in response to HGF/SF may contribute to malignant progression synergistically with the aberrant expression of bFGF in malignant melanocytes and that, in addition, the peptide may promote dispersion of factor-dependent melanocytes from early stages of primary melanomas to ectopic sites.     

The scatter factor/hepatocyte growth factor: c-met pathway in human embryonal central nervous system tumor malignancy

Embryonal central nervous system (CNS) tumors, which comprise medulloblastoma, are the most common malignant brain tumors in children. The role of the growth factor scatter factor/hepatocyte growth factor (SF/HGF) and its tyrosine kinase receptor c-Met in these tumors has been until now completely unknown. In the present study, we show that human embryonal CNS tumor cell lines and surgical tumor specimens express SF/HGF and c-Met. Furthermore, c-Met mRNA expression levels statistically significantly correlate with poor clinical outcome. Treatment of medulloblastoma cells with SF/HGF activates c-Met and downstream signal transduction as evidenced by c-Met, mitogen-activated protein kinase, and Akt phosphorylation. SF/HGF induces tumor cell proliferation, anchorage-independent growth, and cell cycle progression beyond the G1-S checkpoint. Using dominant-negative Cdk2 and a degradation stable p27 mutant, we show that cell cycle progression induced by SF/HGF requires Cdk2 function and p27 inhibition. SF/HGF also protects medulloblastoma cells against apoptosis induced by chemotherapy. This cytoprotective effect is associated with reduction of proapoptotic cleaved poly(ADP-ribose) polymerase and cleaved caspase-3 proteins and requires phosphoinositide 3-kinase activity. SF/HGF gene transfer to medulloblastoma cells strongly enhances the in vivo growth of s.c. and intracranial tumor xenografts. SF/HGF-overexpressing medulloblastoma xenografts exhibit increased invasion and morphologic changes that resemble human large cell anaplastic medulloblastoma. This first characterization establishes SF/HGF:c-Met as a new pathway of malignancy with multifunctional effects in human embryonal CNS tumors.     

Inhibition of membrane ruffling and ezrin translocation by gamma linolenic acid

Membrane ruffling of a tumour cell is correlated with its motile and metastatic behaviour. This study examined the effect of gamma linolenic acid (GLA), an anti-cancer agent, on HGF/SF induced membrane ruffling in the human cancer cell line, HT115. HGF induced a rapid appearance of membrane ruffling which was related to increased motility and the tyrosine phosphorylation and translocation of ezrin, a membrane-cytoskeleton linker protein. The presence of GLA significantly inhibited both the membrane ruffling and cell motility of the tumour cells, at sub-toxic concentrations. Western blotting revealed that the tyrosine phosphorylation of ezrin was inhibited by GLA. The translocation ezrin from cytosol and generalised areas of cell membrane to ruffled areas of the membrane induced by HGF/SF was also inhibited as shown by both indirect immunofluorescence and transmission electron microscopy. It is concluded that GLA inhibits HGF/SF induced membrane ruffling via its effect on ezrin, and this provides a further molecular explanation for the anti-tumour action of GLA.