Inhibition of Plasmodium falciparum phenylalanine tRNA synthetase provides opportunity for antimalarial drug development

Abstract

Bicyclic azetidine compounds possess antimalarial activity via targeting of the cytoplasmic Plasmodium falciparum (Pf) protein translation enzyme phenylalanine-tRNA synthetase (cFRS). These drugs kill parasites both invitro and invivo, including the blood, liver, and transmission developmental stages. Here we present the co-crystal structure of PfcFRS with a potent inhibitor, the bicyclic azetidine BRD7929. Our studies reveal high-affinity binding of BRD7929 with PfcFRS along with exquisite specificity compared with the human enzyme, leading in turn to potent and selective inhibition of the parasite enzyme. Our co-crystal structure shows that BRD7929 binds in the active site in the α subunit of PfcFRS, where it occupies the amino acid site, an auxiliary site, and partially the ATP site. This structural snapshot of inhibitor-bound PfcFRS thus provides a platform for the structure-guided optimization of novel antimalarial compounds.