ESX-1-induced apoptosis is involved in cell-to-cell spread of<i>Mycobacterium tuberculosis</i>

Aguilo, Nacho; Alonso, Henar; Uranga, Santiago; Marinova, Dessislava; Arbués, Ainhoa; Martino, Alba De; Anel, Alberto; Monzón, Marta; Badiola, Juan José; Pardo, Julián; Brosch, Roland; Martı́n, Carlos

doi:10.1111/cmi.12169

Cited by 117 publications

(97 citation statements)

References 49 publications

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“…A second signal emanating from dead or dying macrophages appears to draw these macrophages to them, and their encased bacteria are then phagocytosed to create new infected cells. Indeed, RD1-competent mycobacteria also induce more apoptotic death of infected macrophages in the granuloma (Volkman et al 2004;Davis and Ramakrishnan 2009), consistent with studies showing that the RD1-encoded virulence determinant ESAT-6 can induce multiple programs associated with cell death in vitro Derrick and Morris 2007;van der Wel et al 2007;Choi et al 2010;Mishra et al 2010;Aguilo et al 2013). It would be predicted that the coordinated acceleration of new macrophage recruitment and infected macrophage apoptosis would be required to maximize bacterial expansion in the granuloma.…”

Section: Mechanistic Basis Of Bacterial Esx-1 Induced Granuloma Formasupporting

confidence: 77%

Immunity and Immunopathology in the Tuberculous Granuloma

Pagán

Ramakrishnan

2014

Cold Spring Harb Perspect Med

127

102

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Section: Mechanistic Basis Of Bacterial Esx-1 Induced Granuloma Formasupporting

confidence: 77%

Immunity and Immunopathology in the Tuberculous Granuloma

Pagán

Ramakrishnan

2014

Cold Spring Harb Perspect Med

127

102

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“…Compelling evidence from the zebrafish model shows that the ESX-1 secretion system, via secretion of EsxA (ESAT-6), is involved in the up-regulation of MMP9 on epithelial cells surrounding the granuloma, leading to recruitment of uninfected macrophages (Volkman et al 2010), and that this, together with apoptosis induction of infected macrophages, helps in the dissemination of the bacteria (Davis and Ramakrishnan 2009). The beneficial effect of host cell apoptosis in the spread of bacteria and its dependence on the ESX-1 system were supported by evidence from Mtb in mouse lung infections showing a correlation between strains that induce increased lung cell apoptosis and bacterial growth (Aguilo et al 2013). Consistently, the proapoptotic nuoG Mtb mutant was present in a larger number of diverse lung myeloid cells, albeit with fewer bacteria per cell, compared with wild-type Mtb during the early phase of aerosol mouse infection (Blomgran et al 2012).…”

Section: Host Cell Apoptosis and Consequences To Mtb Pathogenesismentioning

confidence: 87%

Interaction of Mycobacterium tuberculosis with Host Cell Death Pathways

Srinivasan

Ahlbrand

Briken

2014

Cold Spring Harbor Perspectives in Medicine

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“…It seems clear, though, that ESX-1-dependent pore formation and lysis of the vacuolar membrane allows pathogenic mycobacteria and/or bacterial components to gain access to the cytosolic compartment of the host cell at different stages of infection, which accounts for major differences observed between virulent M. tuberculosis and attenuated BCG, the latter lacking ESX-1 functions due to the RD1 deletion. Indeed, M. tuberculosis and BCG differ in a wide variety of features such as cell-tocell spread (115,150), apoptosis (151), autophagy induction, and/or impairment (152,153), and access of mycobacterial proteins to the class I-processing machinery contained in the proteasome, with impact on NLRP3 inflammasome activation (154)(155)(156), type I interferon responses (157), and induction of CD8 T-cell responses (158).…”

Section: Mycobacterial Systems Discovered By Genomics That Are Involvmentioning

confidence: 99%

Mycobacterial Pathogenomics and Evolution

et al. 2014

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Most mycobacterial species are harmless saprophytes, often found in aquatic environments. A few species seem to have evolved from this pool of environmental mycobacteria into major human pathogens, such as Mycobacterium tuberculosis, the agent of tuberculosis, Mycobacterium leprae, the leprosy bacillus, and Mycobacterium ulcerans, the agent of Buruli ulcer. While the pathogenicity of M. ulcerans relates to the acquisition of a large plasmid encoding a polyketide-derived toxin, the molecular mechanisms by which M. leprae or M. tuberculosis have evolved to cause disease are complex and involve the interaction between the pathogen and the host.Here we focus on M. tuberculosis and closely related mycobacteria and discuss insights gained from recent genomic and functional studies. Comparison of M. tuberculosis genome data with sequences from nontuberculous mycobacteria, such as Mycobacterium marinum or Mycobacterium kansasii, provides a perception of the more distant evolution of M. tuberculosis, while the recently accomplished genome sequences of multiple tubercle bacilli with smooth colony morphology, named Mycobacterium canettii, have allowed the ancestral gene pool of tubercle bacilli to be estimated. The resulting findings are instrumental for our understanding of the pathogenomic evolution of tuberculosis-causing mycobacteria. Comparison of virulent and attenuated members of the M. tuberculosis complex has further contributed to identification of a specific secretion pathway, named ESX or Type VII secretion. The molecular machines involved are key elements for mycobacterial pathogenicity, strongly influencing the ability of M. tuberculosis to cope with the immune defense mounted by the host.

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ESX-1-induced apoptosis is involved in cell-to-cell spread ofMycobacterium tuberculosis

Cited by 117 publications

References 49 publications

Immunity and Immunopathology in the Tuberculous Granuloma

Immunity and Immunopathology in the Tuberculous Granuloma

Interaction of Mycobacterium tuberculosis with Host Cell Death Pathways

Mycobacterial Pathogenomics and Evolution

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