Coxiella burnetii is an obligate intracellular bacterium and the etiological agent of the zoonotic disease Q fever. Acute human Q fever is characterized by flu-like symptoms that, in some cases, can result in a persistent infection that may reactivate months or years after initial exposure. Mechanisms by which this obligate parasite evades clearance by the host immune response during persistent infection are unknown. Here, we characterized the interaction of C. burnetii with dendritic cells (DC), critical components of both innate and adaptive immunity. Human DC were infected with two isogenic C. burnetii strains that differ in LPS length. Infection by the Nine Mile phase I (NMI) strain, which is fully virulent and produces full-length LPS, did not result in DC maturation. In contrast, infection by the avirulent Nine Mile phase II strain, producing a severely truncated LPS, resulted in toll-like receptor 4-independent DC maturation and Ϸ10-fold more IL-12 and TNF production. NMI did not actively inhibit DC maturation as NMI-infected DC subsequently matured if treated with Escherichia coli LPS or Nine Mile phase II. Furthermore, removal of LPS from NMI dramatically increased its ability to stimulate DC. We propose a model whereby LPS of virulent C. burnetii masks toll-like receptor ligands from innate immune recognition by DC, thereby allowing replication without significant maturation or inflammatory cytokine production. This immune evasion strategy may allow C. burnetii to persist in an immunocompetent host.immune evasion ͉ Q fever ͉ toll-like receptor ͉ persistence ͉ phase variation
We characterized the expression of a putative toxin of Bacillus anthracis, a member of the cholesteroldependent cytolysin (CDC) family, which includes listeriolysin O, perfringolysin O, and streptolysin O. We named this cytotoxin anthrolysin O (ALO). Although B. anthracis expresses minimal hemolytic activity in clinical settings, we show that Sterne strain 7702 expresses hemolytic activity when grown in brain heart infusion broth or in other rich bacteriologic media, but it secretes barely detectable amounts of hemolysin when grown in Luria-Bertani (LB) broth. Glucose supplementation of LB broth increases the amount of secreted hemolytic activity. Expression of hemolytic activity is maximal during mid-to late-log phase and decreases in the stationary phase. These observations are supported, in part, by semiquantitative reverse transcriptase PCR of alo mRNA. Hemolytic activity in growth supernatants was increased in the presence of reducing agent and almost totally inhibited in a dose-dependent manner by cholesterol; both of these activities are characteristic of a CDC toxin. A mutant of Sterne strain 7702, strain UT231, in which the alo gene was deleted and replaced by a kanamycin cassette, secreted barely detectable hemolytic activity into the growth medium. When strain UT231 was complemented in trans with native alo on a low-copy-number plasmid [strain UT231(pUTE554)], it regained the ability to secrete hemolytic activity, indicating that ALO is the major hemolysin secreted by this strain of B. anthracis in rich media in vitro. To further support the alo gene product being a hemolysin, recombinant B. anthracis ALO (rALO) purified from Escherichia coli was extremely active against washed human erythrocytes, with complete hemolysis detected at ϳ30 molecules of rALO per erythrocyte. Considering the virulence roles of CDCs for other gram-positive bacteria, we speculate that ALO may have a role in anthrax virulence.
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