Journal
NATURE
Volume 511, Issue 7507, Pages 99-U491Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/nature13489
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Funding
- NIAID Intramural Research program
- Concept Acceleration Program-Award from DMID, NIAID
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Tuberculosis remains second only to HIV/AIDS as the leading cause of mortality worldwide due to a single infectious agent(1). Despite chemotherapy, the global tuberculosis epidemic has intensified because of HIV co-infection, the lack of an effective vaccine and the emergence of multi-drug-resistant bacteria(2-5). Alternative host-directed strategies could be exploited to improve treatment efficacy and outcome, contain drug-resistant strains and reduce disease severity and mortality(6). The innate inflammatory response elicited by Mycobacterium tuberculosis (Mtb) represents a logical host target(7). Here we demonstrate that interleukin-1 (IL-1) confers host resistance through the induction of eicosanoids that limit excessive type I interferon (IFN) production and foster bacterial containment. We further show that, in infected mice and patients, reduced IL-1 responses and/or excessive type I IFN induction are linked to an eicosanoid imbalance associated with disease exacerbation. Host-directed immunotherapy with clinically approved drugs that augment prostaglandin E2 levels in these settings prevented acute mortality of Mtb-infected mice. Thus, IL-1 and type I IFNs represent two major counter-regulatory classes of inflammatory cytokines that control the outcome of Mtb infection and are functionally linked via eicosanoids. Our findings establish proof of concept for host-directed treatment strategies that manipulate the host eicosanoid network and represent feasible alternatives to conventional chemotherapy.
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