Xude Wang scite author profile

Mycobacterium tuberculosis (Mtb), the causative agent of human tuberculosis, remains one of the most prevalent human pathogens and a major cause of mortality worldwide. Metabolic network is a central mediator and defining feature of the pathogenicity of Mtb. Increasing evidence suggests that lysine succinylation dynamically regulates enzymes in carbon metabolism in both bacteria and human cells; however, its extent and function in Mtb remain unexplored. Here, we performed a global succinylome analysis of the virulent Mtb strain H37Rv by using high accuracy nano-LC-MS/MS in combination with the enrichment of succinylated peptides from digested cell lysates and subsequent peptide identification. In total, 1545 lysine succinylation sites on 626 proteins were identified in this pathogen. The identified succinylated proteins are involved in various biological processes and a large proportion of the succinylation sites are present on proteins in the central metabolism pathway. Site-specific mutations showed that succinylation is a negative regulatory modification on the enzymatic activity of acetylCoA synthetase. Molecular dynamics simulations demonstrated that succinylation affects the conformational stability of acetyl-CoA synthetase, which is critical for its enzymatic activity. Further functional studies showed that CobB, a sirtuin-like deacetylase in Mtb, functions as a desuccinylase of acetyl-CoA synthetase in in vitro assays. Together, our findings reveal widespread roles for lysine succinylation in regulating metabolism and diverse processes in Mtb. Our data provide a rich resource for functional analyses of lysine succinylation and facilitate the dissection of metabolic networks in this life-threatening pathogen.

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CobB regulates Escherichia coli chemotaxis by deacetylating the response regulator CheY

Chen

et al. 2010

Molecular Microbiology

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The silent information regulator (Sir2) family proteins are NAD+-dependent deacetylases. Although a few substrates have been identified, functions of the bacteria Sir2-like protein (CobB) still remain unclear. Here the role of CobB on Escherichia coli chemotaxis was investigated. We used Western blotting and mass spectrometry to show that the response regulator CheY is a substrate of CobB. Surface plasmon resonance (SPR) indicated that acetylation affects the interaction between CheY and the flagellar switch protein FliM. The presence of intact flagella in knockout strains ΔcobB, Δacs, Δ(cobB) Δ(acs), Δ(cheA) Δ(cheZ), Δ(cheA) Δ(cheZ) Δ(cobB) and Δ(cheA) Δ(cheZ) Δ(acs) was confirmed by electron microscopy. Genetic analysis of these knockout strains showed that: (i) the ΔcobB mutant exhibited reduced responses to chemotactic stimuli in chemotactic assays, whereas the Δacs mutant was indistinguishable from the parental strain, (ii) CheY from the ΔcobB mutant showed a higher level of acetylation, indicating that CobB can mediate the deacetylation of CheY in vivo, and (iii) deletion of cobB reversed the phenotype of Δ(cheA) Δ(cheZ). Our findings suggest that CobB regulates E. coli chemotaxis by deacetylating CheY. Thus a new function of bacterial cobB was identified and also new insights of regulation of bacterial chemotaxis were provided.

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Xude Wang

Acetylome Analysis Reveals Diverse Functions of Lysine Acetylation in Mycobacterium tuberculosis

Succinylome Analysis Reveals the Involvement of Lysine Succinylation in Metabolism in Pathogenic Mycobacterium tuberculosis*

CobB regulates Escherichia coli chemotaxis by deacetylating the response regulator CheY

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