Abstract
BackgroundMacrophage cell death following infection with Mycobacterium tuberculosis plays a central role in tuberculosis disease pathogenesis. Certain attenuated strains induce extrinsic apoptosis of infected macrophages but virulent strains of M. tuberculosis suppress this host response. We previously reported that virulent M. tuberculosis induces cell death when bacillary load exceeds ∼20 per macrophage but the precise nature of this demise has not been defined.Methodology/Principal FindingsWe analyzed the characteristics of cell death in primary murine macrophages challenged with virulent or attenuated M. tuberculosis complex strains. We report that high intracellular bacillary burden causes rapid and primarily necrotic death via lysosomal permeabilization, releasing hydrolases that promote Bax/Bak-independent mitochondrial damage and necrosis. Cell death was independent of cathepsins B or L and notable for ultrastructural evidence of damage to lipid bilayers throughout host cells with depletion of several host phospholipid species. These events require viable bacteria that can respond to intracellular cues via the PhoPR sensor kinase system but are independent of the ESX1 system.Conclusions/SignificanceCell death caused by virulent M. tuberculosis is distinct from classical apoptosis, pyroptosis or pyronecrosis. Mycobacterial genes essential for cytotoxicity are regulated by the PhoPR two-component system. This atypical death mode provides a mechanism for viable bacilli to exit host macrophages for spreading infection and the eventual transition to extracellular persistence that characterizes advanced pulmonary tuberculosis.
Highlights
Following inhalation by a naıve host, Mycobacterium tuberculosis (Mtb) enters lung macrophages, which provide an intracellular environment necessary to support bacterial growth
We previously reported that virulent Mtb at MO I 25 rapidly induces cell death in a caspase-independent manner [5]
We previously described caspase-independent macrophage cell death induced by Mtb when the intracellular load exceeds,20 bacilli [5]
Summary
Following inhalation by a naıve host, Mycobacterium tuberculosis (Mtb) enters lung macrophages, which provide an intracellular environment necessary to support bacterial growth To preserve this replication sanctuary virulent Mtb strains inhibit extrinsic, tumor necrosis factor (TNF)-a mediated apoptosis (a potential host defense against intracellular pathogens) through functions of the mycobacterial nuoG [1] and secA2 [2] genes and superoxide dismutase A [3]. The survival of macrophages challenged with potentially cytotoxic strains was preserved by pretreatment with interferon (IFN)-c that suppressed bacterial replication Their data showed that a low intracellular burden of virulent Mtb does not promote macrophage cell death, at least within 6 days, and suggested that cytotoxicity occurs when Mtb replication exceeds a threshold intracellular bacillary load. We previously reported that virulent M. tuberculosis induces cell death when bacillary load exceeds ,20 per macrophage but the precise nature of this demise has not been defined
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