NF1 (neurofibromatosis type 1)

Several distinct Ras GTPase activating proteins (GAPs) from mammals, including Ras GAP of 120 kDa (GAP1) and NF1, stimulate the intrinsic GTPase activity of normal Ras, but not oncogenic Ras mutants (Trahey and McCormick, 1987). That is the reason why normal Ras remains predominantly in the inactive GDP-bound form (D-Ras), whereas oncogenic Ras remains constitutively in the active GTP-bound form (T-Ras). NF1 is a tumor suppressor of 2818 amino acids whose disruption or deletion causes brain tumors called neurofibromatosis type 1 by elevating the T-Ras level. T-Ras activates several distinct oncogenic effectors, including Ser/Thr kinase Raf, GAP1, P1-3 kinase, PKC-zeta and Ra1 GDS. Interestingly, the binding of T-Ras to either GAPs or these oncogenic effectors requires the same effector domain I (residues 32-40) of T-Ras molecule. In other words, these GAPs and effectors compete for binding to T-Ras. Using a series of N- and C-terminal deletion mutants of NF1, we identified a 78 amino acid fragment (NF78, residues 1441-1518) as the minimum GAP domain, and a 56 amino acid fragment (NF 56, residues 1441-1496) as the minimum Ras-binding domain. Furthermore, we identified the Raf fragment of 81 amino acids (Raf81, residues, 51-131) as the minimum Ras-binding domain with a high affinity. We found that (i) these NF1 fragments and Raf81 compete for binding to T-Ras, and that (ii) over-expression of these NF1 or Raf fragments strongly suppresses the malignant transformation caused by oncogenic Ras mutants. Thus, these agents offer a unique opportunity to control the proliferation of T-Ras-associated tumors that represent more than 30% of all human carcinomas including neurofibromatosis type 1.