Conformation of a Cdc42/Rac interactive binding peptide in complex with Cdc42 and analysis of the binding interface

Most of the putative effecters for the Rho-family small GTPases Cdc42 and R ac share a common sequence motif referred to as the Cdc42/Rac interactive b inding (CRIB) motif. This sequence, with a consensus of I-S-x-P-(x)(2-4)-F- x-H-x-x-H-V-G [Burbelo, P. D., et al. (1995) J. Biol. Chem. 270, 29071-2907 4], has been shown to be essential for the functional interactions between these effector proteins and Cdc42. We have characterized the interactions o f a 22-residue CRIB peptide derived from human PAK2 [PAK2(71-92)] with Cdc4 2 using proton and heteronuclear NMR spectroscopy. This CRIB peptide binds to GTP-gamma S-loaded Cdc42 in a saturable manner, with an apparent K-d of 0.6 mu M, as determined by fluorescence titration using sNBD-labeled Cdc42. Interaction of the 22-residue peptide PAK2(71-92) with GTP-gamma S-loaded Cdc42 causes resonance perturbations in the H-1-N-15 HSQC spectrum of Cdc42 that are similar to those observed for a longer (46-amino acid) CRIB-conta ining protein fragment [Guo, W., et al. (1998) Biochemistry 37, 14030-14037 ]. Proton NMR studies of PAK2(71-92) demonstrate structuring of PAK2(71-92) in the presence of GTP-gamma S-loaded Cdc42, through the observation of ma ny nonsequential transferred NOEs. Structure calculations based on the obse rved transferred NOEs show that the central portion of the Cdc42-bound CRIB peptide assumes a loop conformation in which the side chains of consensus residues Phe80, His82, Ile84, His85, and Val86 are brought into proximity. The CRIB motif may therefore represent a minimal interfacial region in the complexes between Cdc42 and its effector proteins.