STRUCTURAL BASIS FOR THE SPECIFIC INTERACTION OF LYSINE-CONTAINING PROLINE-RICH PEPTIDES WITH THE N-TERMINAL SH3 DOMAIN OF C-CRK

Background: Proline-rich segments in the guanine nucleotide exchange f actor C3G bind much more strongly to the N-terminal Src homology 3 dom ain (SH3-N) of the proto-oncogene product c-Crk than to other SH3 doma ins. The presence of a lysine instead of an arginine in the peptides d erived from C3G appears to be crucial for this specificity towards c-C rk. Results: In order to understand the chemical basis of this specifi city we have determined the crystal structure of Crk SH3-N in complex with a high affinity peptide from C3G (PPPALPPKKR, K-d similar to 2 mu M) at 1.5 Angstrom resolution. The peptide adopts a polyproline type II helix that binds, as dictated by electrostatic complementarity, in reversed orientation relative to orientation seen in earliest structur es of SH3-peptide complexes. A lysine in the C3G peptide is tightly co ordinated by three acidic residues in the SH3 domain. In contrast, the co-crystal structure of c-Crk SH3-N and a peptide containing an argin ine at the equivalent position (determined at 1.9 Angstrom resolution) reveals non-optimal geometry for the arginine and increased disorder. Conclusions: The c-Crk SH3 domain engages in an unusual lysine-specif ic interaction that is rarely seen in protein structures, and which ap pears to be a key determinant of its unique ability to bind the C3G pe ptides with high affinity.