Mutations in the genes encoding for Met, Ret and Kit receptor tyrosine kinases invariably result in increased kinase activity and in the acquisition of transforming potential. However, the requirement of receptor ligands for the transformation process is still unclear. We have investigated the role of hepatocyte growth factor (HGF), the high-anity ligand for Met, in mutant Met-mediated cell transformation. We provide evidence that the transforming potential displayed by mutant forms of Met found in human cancer is not only sensitive but entirely dependent on the presence of HGF, by showing that mutant Met transforms NIH3T3 ®broblasts, which produce endogenous HGF, but is not able to transform epithelial cells, unless exogenous HGF is supplied. Accordingly, mutant Met-induced transformation of NIH3T3 cells can be inhibited by HGF antagonists and increased by HGF stimulation. We also show that an engineered Met receptor which contains an oncogenic mutation but is impaired in its ability to bind HGF completely loses its transforming activity, which can be rescued by causing receptor dimerization using a monoclonal antibody. These results indicate that point mutations resulting in Met kinase activation are necessary but not sucient to cause cell transformation, the latter being dependent on ligand-induced receptor dimerization. They also suggest that mutant Met-driven tumour growth depends on the availability and tissue distribution of active HGF, and provide proof-of-concept for the treatment of mutant-Met related pathologies by HGF-antagonizing drugs.Keywords: growth factors; invasive growth; oncogenes; transformation; tyrosine kinases
IntroductionThe Met tyrosine kinase is a high-anity receptor for hepatocyte growth factor (HGF), a cytokine that is ubiquitously expressed by cells of mesenchimal origin (Bottaro et al., 1991;Naldini et al., 1991). The Met receptor is expressed mainly by epithelial cells (Stoker et al., 1987;Di Renzo et al., 1991), but it has also been identi®ed in endothelial cells (Bussolino et al., 1992;Grant et al., 1993), in myoblasts (Anastasi et al., 1997), in cells of the hematopoietic system (Galimi et al., 1994;Nishino et al., 1995) and in spinal motor neurons (Ebens et al., 1996). Signalling through HGF/ Met promotes a unique biological program known as invasive growth' that results from the integration of distinct cellular responses, that include cell division, cell motility, extracellular matrix digestion and invasion, survival and morphogenetic dierentiation Tamagnone and Comoglio, 1997;Rubin et al., 1993). HGF/Met signalling is essential for mouse embryo development Schmidt et al., 1995; Uehara et al., 1995;Maina et al., 1996) and is believed to play a key role in tissue regeneration (Matsumoto and Nakamura 1993), wound healing (Nusrat et al., 1994), and organ development Schmidt et al., 1995; Woolf et al., 1995; Yang et al., 1995). Inappropriate activation of the HGF/Met pathway has been implicated in the etiology of a number of tumours and has been shown to promote the metastat...
