The Mycobacterium tuberculosis  -Ketoacyl-Acyl Carrier Protein Synthase III Activity Is Inhibited by Phosphorylation on a Single Threonine Residue

R Veyron-Churlet, V Molle, Rebecca Taylor, Alistair Brown, Gurdyal Besra, I Zanella-Cleon, Klaus Futterer, L Kremer

Research output: Contribution to journalArticle

60 Citations (Scopus)

Abstract

Mycolic acids are hallmark features of the Mycobacterium tuberculosis cell wall. They are synthesized by the condensation of two fatty acids, a C(56-64)-meromycolyl chain and a C(24-26)-fatty acyl chain. Meromycolates are produced via the combination of type I and type II fatty acid synthases (FAS-I and FAS-II). The beta-ketoacyl-acyl carrier protein (ACP) synthase III (mtFabH) links FAS-I and FAS-II, catalyzing the condensation of FAS-I-derived acyl-CoAs with malonyl-ACP. Because mtFabH represents a potential regulatory key point of the mycolic acid pathway, we investigated the hypothesis that phosphorylation of mtFabH controls its activity. Phosphorylation of proteins by Ser/Thr protein kinases (STPKs) has recently emerged as a major physiological mechanism of regulation in prokaryotes. We demonstrate here that mtFabH was efficiently phosphorylated in vitro by several mycobacterial STPKs, particularly by PknF and PknA, as well as in vivo in mycobacteria. Analysis of the phosphoamino acid content indicated that mtFabH was phosphorylated exclusively on threonine residues. Mass spectrometry analyses using liquid chromatography-electrospray ionization/tandem mass spectrometry identified Thr(45) as the unique phosphoacceptor. This was further supported by complete loss of PknF- or PknA-dependent phosphorylation of a mtFabH mutant. Mapping Thr(45) on the crystal structure of mtFabH illustrates that this residue is located at the entrance of the substrate channel, suggesting that the phosphate group may alter accessibility of the substrate and thus affect mtFabH enzymatic activity. A T45D mutant of mtFabH, designed to mimic constitutive phosphorylation, exhibited markedly decreased transacylation, malonyl-AcpM decarboxylation, and condensing activities compared with the wild-type protein or the T45A mutant. Together, these findings not only represent the first demonstration of phosphorylation of a beta-ketoacyl-ACP synthase III enzyme but also indicate that phosphorylation of mtFabH inhibits its enzymatic activity, which may have important consequences in regulating mycolic acid biosynthesis.
Original languageEnglish
Pages (from-to)6414-6424
Number of pages11
JournalJournal of Biological Chemistry
Volume284
Issue number10
Early online date22 Oct 2008
DOIs
Publication statusPublished - 22 Oct 2008

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