[Inhibition of ras-dependent transformation by using dominant negative ras mutant N116Y].

Ras p21s are known as molecular switch for signal transduction pathways. They act as intracellular signal transducers of extracellular signals for growth and differentiation. Ras activities are regulated by the rotation between active GTP-bound form and inactive GDP-bound form. This cycle is regulated by the GDP/GTP exchange reaction and intrinsic GTPase activity of ras p21. The N116Y, v-H-ras mutant substituted the asparagine-116 with tyrosine, has dominant negative activity toward normal ras p21, and suppresses ras dependent transformed phenotypes. To investigate the effects of N116Y on ras-mediated signals for transformation, I constructed an inducible vector by recombination of the N116Y mutant to the downstream of human metallothionein promoter, and transfected it into an NIH3T3 cell line transformed by LTR linked normal c-H-ras, 18A. I isolated two 18A cell clones T1 and T6. Both of the cell lines were able to induce the N116Y mutant after the heavy metal treatment. These clones displayed flat reversion within 24 hours. In addition, these clones also inhibited colony formation in soft agar by epidermal growth factor (EGF), platelet-derived growth factor (PDGF), or serum stimulation. The N116Y mutant blocked GDP/GTP exchange reaction by each growth stimulation. On the other hand, this mutant could not have sufficient influence upon extracellular signal-regulated kinase 2 (ERK2) phosphorylation, which located downstream of ras-mediated signal transduction, provoked by PDGF and serum stimulation. These results suggest that ERK2 activation is not necessary and sufficient for ras-dependent transformation. There could be a divergency in signal transduction between cell growth and transformation. The signal suppressed by the N116Y mutant may play an important role in cellular transformation.