Abstract
Mycobacterium tuberculosis PhoP is essential for virulence and intracellular growth of the tubercle bacilli. Genetic evidence suggests that PhoP regulates complex lipid biosynthesis, and absence of some of these lipid molecules in a phoP mutant partly accounts for its attenuated growth in macrophages and/or mice. To investigate the mechanism of regulation, here we demonstrate the essentiality of phosphorylation of PhoP in the regulation of complex lipid biosynthesis. We show that phosphorylated PhoP activates transcription of pks2 and msl3, gene(s) encoding polyketide β-ketoacyl synthases through direct DNA binding at the upstream regulatory region(s) of the target genes. Our results identify the genetic determinants recognized by PhoP and show that activation of target genes requires interaction(s) of the phosphorylated regulator at the cognate binding sites. The fact that these sites within the regulatory region of respective genes do not bind in vitro with either unphosphorylated or phosphorylation-deficient PhoP protein is consistent with phosphorylation-dependent assembly of the transcription initiation complex leading to in vivo transcriptional activation. Together, these results reveal so far unknown molecular mechanisms of how PhoP contributes to M. tuberculosis cell wall composition by regulating complex lipid biosynthesis.
Highlights
PhoP is global regulator of Mycobacterium tuberculosis physiology
Phosphorylation of PhoP Regulates Cell Wall Composition by Controlling Lipid Biosynthesis in M. tuberculosis—Studies aimed at investigating phenotypic differences between M. tuberculosis H37Ra and the pathogenic H37Rv showed striking morphological differences displaying smaller colony size and lesser wrinkling on the colony surface for H37Ra compared with H37Rv
Two independent studies show that much of the difference was significantly reduced when PhoP from H37Rv was expressed in H37Ra [18, 19]. We extended these results to gain insight into the mechanism of how PhoP contributes to M. tuberculosis morphology
Summary
PhoP is global regulator of Mycobacterium tuberculosis physiology. the role of phosphorylation of PhoP remains unknown. Recent studies strongly suggest a link between altered lipid compositions of the phoP mutant strain to its interaction with macrophages [22], the mechanism of how gene(s) involved in lipid biosynthesis are regulated by the important DNA binding transcription factor remains unknown. Based on these studies, we predicted that PhoP functions as a regulator of genes involved in complex lipid biosynthesis. The results have implications for the mechanism of PhoP-mediated regulation of lipid biosynthesis, which is of critical importance to cell wall composition and morphology of the tubercle bacilli
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