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  • Title: Functional preference of the constituent amino acid residues in a phage-library-based nonphosphorylated inhibitor of the Grb2-SH2 domain.
    Author: Lung FD, Long YQ, Roller PP, King CR, Varady J, Wu XW, Wang S.
    Journal: J Pept Res; 2001 Jun; 57(6):447-54. PubMed ID: 11437948.
    Abstract:
    A nonphosphorylated disulfide-bridged peptide, cyclo(Cys-Glu1-Leu-Tyr-Glu-Asn-Val-Gly-Met-Tyr9-Cys)-amide (termed G1) has been identified, by phage library, that binds to the Grb2-SH2 domain but not the src SH2 domain. Synthetic G1 blocks the Grb2-SH2 domain association (IC50 of 15.5 microM) with natural phosphopeptide ligands. As a new structural motif that binds to the Grb2-SH2 domain in a pTyr-independent manner, the binding affinity of G1 is contributed by the highly favored interactions of its structural elements interacting with the binding pocket of the protein. These interactions involve side-chains of amino acids Glu1, Tyr3, Glu4, Asn5, and Met8. Also a specific conformation is required for the cyclic peptide when bound to the protein. Ala scanning within G1 and molecular modeling analysis suggest a promising model in which G1 peptide binds in the phosphotyrosine binding site of the Grb2-SH2 domain in a beta-turn-like conformation. Replacement of Tyr3 or Asn5 with Ala abrogates the inhibitory activity of the peptide, indicating that G1 requires a Y-X-N consensus sequence similar to that found in natural pTyr-containing ligands, but without Tyr phosphorylation. Significantly, the Ala mutant of Glu1, i.e. the amino acid N-terminal to Y3, remarkably reduces the binding affinity. The position of the Glu1 side-chain is confirmed to provide a complementary role for pTyr3, as demonstrated by the low micromolar inhibitory activity (IC50 = 1.02 microM) of the nonphosphorylated peptide 11, G1(Gla1), in which Glu1 was replaced by gamma-carboxy-glutamic acid (Gla).
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