O.Y. Lubman and G. Waksman.
Dissection of the energetic coupling across the Src SH2 domain-
tyrosyl phosphopeptide interface.
Src Homology (SH2) domains play critical roles in signaling pathways by
binding to phosphotyrosine (pTyr)-containing sequences, thereby recruiting SH2
domain-containing proteins to tyrosine-phosphorylated sites on receptor
molecules. Investigations of the peptide binding specificity of the SH2 domain of
the Src kinase (Src SH2 domain) have defined the "EEI" motif C-terminal to the
phosphotyrosine as the preferential binding sequence. A subsequent study that
probed the importance of eight specificity-determining residues of the Src SH2
domain (Bradshaw et al. (2000) J. Mol. Biol. 299:521-535) found two residues
which when mutated to Ala had significant effects on binding: Tyr betaD5 and
Lys betaD3. The mutation of Lys betaD3 to Ala was particularly intriguing, since a Glu
to Ala mutation at the first (+1) position of the EEI motif (the residue interacting
with Lys betaD3) did not significantly affect binding. Hence, the interaction between
Lys betaD3 and +1 Glu is energetically coupled. This study is focused on the
dissection of the energetic coupling observed across the SH2 domain-
phosphopeptide interface at and around the +1 position of the peptide. It was
found that three residues of the SH2 domain, Lys betaD3, Asp betaC8 and AspCD2
(altogether forming the so-called "+1 binding region") contribute to the selection
of Glu at the +1 position of the ligand. A double (AspbetaC8Ala, AspCD2Ala)
mutant does not exhibit energetic coupling between Lys betaD3 and +1 Glu, and
binds to the pYEEI sequence 0.3 kcal/mol tighter than the wild-type Src SH2
domain. These results suggest that Lys betaD3 in the double mutant is now free to
interact with the +1 Glu and that the role of Lys betaD3 in the wild-type is to
neutralize the acidic patch formed by Asp betaC8 and AspCD2 rather than
specifically select for a Glu at the +1 position as it had been hypothesized
previously. A triple mutant (Lys betaD3Ala, Asp betaC8Ala, AspCD2Ala) has reduced
binding affinity compared to the double (Asp betaC8Ala, AspCD2Ala) mutant, yet
binds the pYEEI peptide as well as the wild-type Src SH2 domain. The structural
basis for such high affinity interaction was investigated crystallographically by
determining the structure of the triple (L betaD3Ala, Asp betaC8Ala, AspCD2Ala)
mutant bound to the octapeptide PQpYEEIPI (where "pY" indicates a
phosphotyrosine). This structure reveals for the first time contacts between the
SH2 domain and the 1 and 2 positions of the peptide (i.e. the 2 residues N-
terminal to pY). Thus, unexpectedly, mutations in the +1 binding region affect
binding of other regions of the peptide. Such additional contacts may account for
the high affinity interaction of the triple mutant for the pYEEI-containing
peptide.
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