Foot and mouth disease leader protease (Lbpro): Investigation of prime side specificity allows the synthesis of a potent inhibitor

Foot and mouth disease virus expresses its genetic information as a single polyprotein that is translated from the single-stranded RNA genome. Proteinases contained within the polyprotein then generate the mature viral proteins. The leader protease (Lb^pro) performs the initial cleavage by freeing itself from the growing polypeptide chain; subsequently, Lb^pro cleaves the two homologues of the host cell protein eukaryotic initiation factor 4G (eIF4G). We showed that Lb^pro possesses specific binding sites at the non prime side from S₁ down to S₇ Santos et al. (2009) Biochemistry, 48, 7948–7958]. Here, we demonstrate that Lb^pro has high prime side specificity at least down to the S′₅ site. Lb^pro is thus not only one of the smallest papain-like cysteine peptidases but also one of the most specific. It can still however cleave between both K↓G and G↓R pairs. We further determined the two-step irreversible inhibition (E + I ? EI→ E ? I) kinetic parameters of two known irreversible epoxide-based inhibitors of cysteine proteinases, E64 and CA074 on Lb^pro that show for the reversible step (E + I ? EI) K_i = 3.4 μM and 11.6 μM, and for the irreversible step (EI→E?I) k₄ = 0.16 and 0.06 min^?1, respectively. Knowledge of the Lb^pro specificity led us to extend E64 by addition of the dipeptide R–P. This compound, termed E64-R-P-NH₂, irreversibly inhibited Lb^pro with a K_i = 30 nM and k₄ = 0.01 min^?1 and can serve as the basis for design of specific inhibitors of FMDV replication.