EspR-dependent ESAT-6 Protein Secretion of Mycobacterium tuberculosis Requires the Presence of Virulence Regulator PhoP

Kumar, Vijjamarri Anil; Goyal, Reena; Bansal, Roohi; Singh, Nisha; Sevalkar, Ritesh Rajesh; Kumar, Ashwani; Sarkar, Dibyendu

doi:10.1074/jbc.m116.746289

Cited by 47 publications

(51 citation statements)

References 61 publications

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“…Considering the above results, recently-reported PhoP-DosR interaction (23) emerged as a possible explanation to account for the regulation of hypoxia-inducible genes. To examine this, whole cell lysate of ΔphoP expressing His-tagged PhoP, as described previously (35), was incubated with Ni-NTA, and proteins were eluted from Ni-NTA column using imidazole (Fig. 4B).…”

Section: Resultsmentioning

confidence: 99%

“…While these results suggest convergence of two different types of signalling modules for a common function, along the similar line DosR interacts with the house keeping sigma factor SigA for bacterial survival under dormancy (17). Recently, we have shown that PhoP interacts with nucleoid-associated protein EspR to control ESAT-6 secretion (35). In this study, we show that N-domains which get phosphorylated for activation of respective regulators, interact to each other (Fig.…”

Section: Discussionmentioning

confidence: 99%

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Metabolic switching ofMycobacterium tuberculosisduring hypoxia is controlled by the virulence regulator PhoP

Singh

Kumar

Sarkar

2019

Preprint

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25Mycobacterium tuberculosis (Mtb) retains the unique ability to establish an asymptomatic 26 latent infection. A fundamental question in mycobacterial physiology is to understand the 27 mechanisms involved in hypoxic stress, a critical player in persistence. Here, we show that the 28 virulence regulator PhoP responds to hypoxia, the dormancy signal and effectively integrates 29 hypoxia with nitrogen metabolism. We also provide evidence to demonstrate that both under 30 nitrogen limiting conditions and during hypoxia, phoP locus controls key genes involved in 31 nitrogen metabolism. Consistently, under hypoxia phoP shows growth attenuation even with 32 surplus nitrogen, the alternate electron acceptor, and complementation of the mutant restores 33 bacterial growth. Together, our observations provide new biological insights into the role of 34 PhoP in integrating nitrogen metabolism with hypoxia by the assistance of the hypoxia regulator 35DosR. The results have significant implications on the mechanism of intracellular survival and 36 growth of the tubercle bacilli under a hypoxic environment within the phagosome. 37 38 Importance 39Mtb retains the unique ability to establish an asymptomatic latent infection. To understand the 40 mechanisms involved in hypoxic stress which plays a critical role in persistence, we show that 41 the virulence regulator PhoP responds to hypoxia, the dormancy signal. In keeping with this, 42 phoP was shown to play a major role in Mtb growth under hypoxia even in presence of surplus 43 nitrogen, the alternate electron acceptor. Our results showing regulation of hypoxia-responsive 44 genes provide new biological insights into role of the virulence regulator in metabolic switching 45 by sensing hypoxia and integrating nitrogen metabolism with hypoxia by the assistance of the 46 hypoxia regulator DosR. 47 48 49 A hallmark of tuberculosis is the unique ability of Mtb to establish an asymptomatic 50 latent infection and persist within granulomas in a dormant form, sometimes for a very long 51 time, before reactivation to cause the active disease. As survival and persistence in this 52 environment depends on the sensing of signals and ability to induce a robust adaptive response, 53 one of the major aspects to understand latent TB relates to understanding molecular mechanism 54 of adaptation of the tubercle bacilli in response to environmental stress. 55 56 Despite its requirement of oxygen for growth, during latency Mtb can survive without 57 oxygen for a surprisingly long time. Thus, two in vivo conditions are often linked to latent TB. 58These are hypoxia and exposure to immune effectors such as nitric oxide (NO) (1-3). The ability 59 to produce reactive nitrogen species (RNS) by host-inducible nitric oxide synthase (iNOS) 60 contributes to TB infections by its effect on both the host and the pathogen (4). Therefore, 61 functional iNOS expression could be detected in the lung macrophages of human TB patients (5, 62 6). Consistently, hypoxia and nitric oxide dependent bacterial adaptation...

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Metabolic switching ofMycobacterium tuberculosisduring hypoxia is controlled by the virulence regulator PhoP

Singh

Kumar

Sarkar

2019

Preprint

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“…PhoP is part of a two-component system that regulates several virulence pathways in M. tuberculosis, including biosynthetic genes of the M. tuberculosis-specific lipids, sulfolipid, DAT, and PAT (103). In addition to regulating lipid biosynthesis genes, PhoP also regulates whiB6 and works directly with EspR, and both regulate ESX-1 gene expression (96,104,105). Therefore, under many of the conditions in which cell envelope remodeling may be occurring or where cell wall genes are regulated, ESX genes are also regulated.…”

Section: Cell Wall Synthesis and Esx Systemsmentioning

confidence: 99%

“…Alternatively, the ESX substrates may direct their own transit across the MOM, by either forming the apparatus spanning the MOM or by transiting the MOM directly (48,104,(157)(158)(159). Notably, the EspC substrate of the ESX-1 system in M. tuberculosis (160) was recently reported by Lou et al to self-assemble into filaments in vitro.…”

Section: Crossing the Envelopementioning

confidence: 99%

Esx Systems and the Mycobacterial Cell Envelope: What's the Connection?

Bosserman

Champion

2017

J Bacteriol

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Mycobacterial 6-kDa early secreted antigenic target (ESAT-6) system (ESX) exporters transport proteins across the cytoplasmic membrane. Many proteins transported by ESX systems are then translocated across the mycobacterial cell envelope and secreted from the cell. Although the mechanism underlying protein transport across the mycolate outer membrane remains elusive, the ESX systems are closely connected with and localize to the cell envelope. Links between ESX-associated proteins, cell wall synthesis, and the maintenance of cell envelope integrity have been reported. Genes encoding the ESX systems and those required for biosynthesis of the mycobacterial envelope are coregulated. Here, we review the interplay between ESX systems and the mycobacterial cell envelope.

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“…phoP deletion mutants of M. tuberculosis are attenuated for growth in THP‐1 macrophages as well as in murine bone marrow‐derived macrophages . PhoP/PhoR regulates espB and espR which are essential for ESX‐1 mediated secretion of ESAT‐6. In a recent study, it has been demonstrated that PhoP and EspR interact directly with each other and are recruited to the espACD promoter.…”

Section: Introductionmentioning

confidence: 99%

The role of two‐component systems in the physiology of Mycobacterium tuberculosis

Kundu

2018

IUBMB Life

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Tuberculosis is a global health problem, with a third of the world's population infected with the bacillus, Mycobacterium tuberculosis. The problem is exacerbated by the emergence of multidrug resistant and extensively drug resistant strains. The search for new drug targets is therefore a priority for researchers in the field. The two-component systems (TCSs) are central to the ability of the bacterium to sense and to respond appropriately to its environment. Here we summarize current knowledge on the paired TCSs of M. tuberculosis. We discuss what is currently understood regarding the signals to which each of the sensor kinases responds, and the regulons of each of the cognate response regulators. We also discuss what is known regarding attempts to inhibit the TCSs by small molecules and project their potential as pharmacological targets for the development of novel antimycobacterial agents. © 2018 IUBMB Life, 70(8):710-717, 2018.

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EspR-dependent ESAT-6 Protein Secretion of Mycobacterium tuberculosis Requires the Presence of Virulence Regulator PhoP

Cited by 47 publications

References 61 publications

Metabolic switching ofMycobacterium tuberculosisduring hypoxia is controlled by the virulence regulator PhoP

Metabolic switching ofMycobacterium tuberculosisduring hypoxia is controlled by the virulence regulator PhoP

Esx Systems and the Mycobacterial Cell Envelope: What's the Connection?

The role of two‐component systems in the physiology of Mycobacterium tuberculosis

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