Abstract
Phosphorylation of proteins by Ser/Thr protein kinases (STPKs) has recently become of major physiological importance because of its possible involvement in virulence of bacterial pathogens. Although Mycobacterium tuberculosis has eleven STPKs, the nature and function of the substrates of these enzymes remain largely unknown. In this work, we have identified for the first time STPK substrates in M. tuberculosis forming part of the type II fatty acid synthase (FAS-II) system involved in mycolic acid biosynthesis: the malonyl-CoA::AcpM transacylase mtFabD, and the beta-ketoacyl AcpM synthases KasA and KasB. All three enzymes were phosphorylated in vitro by different kinases, suggesting a complex network of interactions between STPKs and these substrates. In addition, both KasA and KasB were efficiently phosphorylated in M. bovis BCG each at different sites and could be dephosphorylated by the M. tuberculosis Ser/Thr phosphatase PstP. Enzymatic studies revealed that, whereas phosphorylation decreases the activity of KasA in the elongation process of long chain fatty acids synthesis, this modification enhances that of KasB. Such a differential effect of phosphorylation may represent an unusual mechanism of FAS-II system regulation, allowing pathogenic mycobacteria to produce full-length mycolates, which are required for adaptation and intracellular survival in macrophages.
Highlights
Mycobacterium tuberculosis has a unique cell wall structure that accounts for the ability of the bacterium to grow in several contrasting environments and which is responsible for its low membrane permeability, contributing to its resistance to common chemotherapeutic agents [1]
We have identified for the first time serine/threonine protein kinases (STPKs) substrates in M. tuberculosis forming part of the type II fatty acid synthase (FAS-II) system involved in mycolic acid biosynthesis: the malonyl-CoA::AcpM transacylase mtFabD, and the -ketoacyl AcpM synthases KasA and KasB
STPK-mediated Phosphorylation of Mycobacterial FAS-II Enzymes—The main locus of the mycobacterial FAS-II system is an operon comprising five genes, all transcribed in the same orientation [6, 36]
Summary
88 (Ϫ) 198 (ϩ) 199 (Ϫ) 211 (Ϫ) 208 (ϩ) 210 (Ϫ) 209 (ϩ) 274 (ϩ) 275 (Ϫ) 196 (ϩ) 197 (Ϫ). A recent proteomic study with Corynebacterium glutamicum revealed that the vast majority of the phosphorylated proteins are metabolic enzymes rather than regulatory proteins, suggesting that protein phosphorylation plays a much broader function in the physiology of the bacteria than was previously expected [27]. This observation, along with several pieces of data brought us to suspect that activity of the tightly interconnected FAS-II components [28] might depend on post-translational modifications, such as phosphorylation. We show for the first time that several FAS-II components, including KasA and KasB, are phosphorylated in vitro and in vivo by STPKs and provide evidence that phosphorylation differentially affects their condensing activity
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