The mitochondrion of Plasmodium falciparum generates essential acetyl-CoA for protein acetylation

Abstract

AbstractCoenzyme A (CoA) biosynthesis is an excellent target for antimalarial intervention. While most studies have focused on the use of CoA to produce acetyl-CoA in the apicoplast and the cytosol of malaria parasites, mitochondrial acetyl-CoA production is less well understood. In the current study, we performed metabolite labeling experiments to measure endogenous metabolites in Plasmodium falciparum lines with genetic deletions affecting mitochondrial dehydrogenase activity. Our results show that mitochondrial acetyl-CoA biosynthesis is essential for parasite growth and identify a catalytic redundancy between the two main ketoacid dehydrogenase enzymes, both of which are able to produce acetyl-CoA. The activity of these enzymes is dependent on the lipoate attachment enzyme LipL2, which is essential for parasite survival solely based on its role in supporting acetyl-CoA metabolism. We also find that acetyl-CoA produced in the mitochondrion is essential for the acetylation of histones and other proteins outside of the mitochondrion. Taken together, our results demonstrate that the mitochondrion is an essential de novo source of acetyl-CoA and is required for P. falciparum protein acetylation critical to parasite survival.