Abstract
A high intracellular bacillary load of Mycobacterium tuberculosis in macrophages induces an atypical lysosomal cell death with early features of apoptosis that progress to necrosis within hours. Unlike classical apoptosis, this cell death mode does not appear to diminish M. tuberculosis viability. We previously reported that culturing heavily infected macrophages with naïve macrophages produced an antimicrobial effect, but only if naïve macrophages were added during the pre-necrotic phase of M. tuberculosis-induced cell death. In the present study we investigated the mechanism of antimicrobial activity in co-cultures, anticipating that efferocytosis of bacilli in apoptotic bodies would be required. Confocal microscopy revealed frustrated phagocytosis of M. tuberculosis-infected macrophages with no evidence that significant numbers of bacilli were transferred to the naïve macrophages. The antimicrobial effect of naïve macrophages was retained when they were separated from infected macrophages in transwells, and conditioned co-culture supernatants transferred antimicrobial activity to cultures of infected macrophages alone. Antimicrobial activity in macrophage co-cultures was abrogated when the naïve population was deficient in IL-1 receptor or when the infected population was deficient in inducible nitric oxide synthase. The participation of nitric oxide suggested a conventional antimicrobial mechanism requiring delivery of bacilli to a late endosomal compartment. Using macrophages expressing GFP-LC3 we observed the induction of autophagy specifically by a high intracellular load of M. tuberculosis. Bacilli were identified in LC3-positive compartments and LC3-positive compartments were confirmed to be acidified and LAMP1 positive. Thus, the antimicrobial effect of naïve macrophages acting on M. tuberculosis in heavily-infected macrophages is contact-independent. Interleukin-1 provides an afferent signal that induces an as yet unidentified small molecule which promotes nitric oxide-dependent antimicrobial activity against bacilli in autolysosomes of heavily infected macrophages. This cooperative, innate antimicrobial interaction may limit the maximal growth rate of M. tuberculosis prior to the expression of adaptive immunity in pulmonary tuberculosis.
Highlights
A role for apoptosis in innate defense against Mycobacterium tuberculosis (M.tb) was suggested by evidence that attenuated M.tb H37Ra and M. bovis BCG induced tumor necrosis factor (TNF)a stimulated apoptosis in infected macrophages, which was associated with a reduction in bacillary viability [1,2]
Previous studies of macrophages infected with M. avium or M.tb demonstrated that co-culture with naıve macrophages restricted mycobacterial growth, but only when the originally infected cells exhibited features of apoptosis [3,4]
To investigate that question we first assessed whether efferocytosis occurs in cocultures of naıve cell line macrophages stained with Cholera toxin 488 and M.tb Erdman-infected macrophages (MOI 50) stained with Cholera toxin 647
Summary
A role for apoptosis in innate defense against Mycobacterium tuberculosis (M.tb) was suggested by evidence that attenuated M.tb H37Ra and M. bovis BCG induced tumor necrosis factor (TNF)a stimulated apoptosis in infected macrophages, which was associated with a reduction in bacillary viability [1,2]. In addition to the direct antimicrobial processes occurring in apoptotic macrophages, a previous study by Fratazzi et al [3] demonstrated that the addition of naıve macrophages to macrophages infected with an apoptosis-inducing strain of M. avium strongly inhibited bacillary growth. This co-culture effect was observed when the infected cells were apoptotic, but not if they were made necrotic by sonication. The host-protective effects of apoptosis in tuberculosis (TB) is an accepted paradigm but its biological relevance is uncertain since virulent M.tb inhibits the apoptotic death of infected macrophages [2] and uses these cells as a replication niche. Adding naıve macrophages during this pre-necrotic interval was shown to inhibit M.tb replication, whereas adding naıve macrophages at 24 h post-infection when the infected population was necrotic had no antimicrobial effect
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