The binding of foot-and-mouth disease virus leader proteinase to eIF4GI involves conserved ionic interactions.

The leader proteinase (L(pro)) of foot-and-mouth disease virus (FMDV) initially cleaves itself from the polyprotein. Subsequently, L(pro) cleaves the host proteins eukaryotic initiation factor (eIF) 4GI and 4GII. This prevents protein synthesis from capped cellular mRNAs; the viral RNA is still translated, initiating from an internal ribosome entry site. L(pro) cleaves eIF4GI between residues G674 and R675. We showed previously, however, that L(pro) binds to residues 640-669 of eIF4GI. Binding was substantially improved when the eIF4GI fragment contained the eIF4E binding site and eIF4E was present in the binding assay. L(pro) interacts with eIF4GI via residue C133 and residues 183-195 of the C-terminal extension. This binding domain lies about 25 A from the active site. Here, we examined the binding of L(pro) to eIF4GI fragments generated by in vitro translation to narrow the binding site down to residues 645-657 of human eIF4GI. Comparison of these amino acids with those in human eIF4GII as well as with sequences of eIF4GI from other organisms allowed us to identify two conserved basic residues (K646 and R650). Mutation of these residues was severely detrimental to L(pro) binding. Similarly, comparison of the sequence between residues 183 and 195 of L(pro) with those of other FMDV serotypes and equine rhinitis A virus showed that acidic residues D184 and E186 were highly conserved. Substitution of these residues in L(pro) significantly reduced eIF4GI binding and cleavage without affecting self-processing. Thus, FMDV L(pro) has evolved a domain that specifically recognizes a host cell protein.