Author:
Chitnumsub Penchit,Ittarat Wanwipa,Jaruwat Aritsara,Noytanom Krittikar,Amornwatcharapong Watcharee,Pornthanakasem Wichai,Chaiyen Pimchai,Yuthavong Yongyuth,Leartsakulpanich Ubolsree
Abstract
Plasmodium falciparumserine hydroxymethyltransferase (PfSHMT), an enzyme in the dTMP synthesis cycle, is an antimalarial target because inhibition of its expression or function has been shown to be lethal to the parasite. As the wild-type enzyme could not be crystallized, protein engineering of residues on the surface was carried out. The surface-engineered mutantPfSHMT-F292E was successfully crystallized and its structure was determined at 3 Å resolution. ThePfSHMT-F292E structure is a good representation ofPfSHMT as this variant revealed biochemical properties similar to those of the wild type. Although the overall structure ofPfSHMT is similar to those of other SHMTs, unique features including the presence of two loops and a distinctive cysteine pair formed by Cys125 and Cys364 in the tetrahydrofolate (THF) substrate binding pocket were identified. These structural characteristics have never been reported in other SHMTs. Biochemical characterization and mutation analysis of these two residues confirm that they act as a disulfide/sulfhydryl switch to regulate the THF-dependent catalytic function of the enzyme. This redox switch is not present in the human enzyme, in which the cysteine pair is absent. The data reported here can be further exploited as a new strategy to specifically disrupt the activity of the parasite enzyme without interfering with the function of the human enzyme.
Publisher
International Union of Crystallography (IUCr)
Subject
General Medicine,Structural Biology
Cited by
23 articles.
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