Abstract
The efficient clearance of microbes by neutrophils requires the concerted action of reactive oxygen species and microbicidal components within leukocyte secretory granules. Rubrerythrin (Rbr) is a nonheme iron protein that protects many air-sensitive bacteria against oxidative stress. Using oxidative burst-knockout (NADPH oxidase–null) mice and an rbr gene knockout bacterial strain, we investigated the interplay between the phagocytic oxidative burst of the host and the oxidative stress response of the anaerobic periodontal pathogen Porphyromonas gingivalis. Rbr ensured the proliferation of P. gingivalis in mice that possessed a fully functional oxidative burst response, but not in NADPH oxidase–null mice. Furthermore, the in vivo protection afforded by Rbr was not associated with the oxidative burst responses of isolated neutrophils in vitro. Although the phagocyte-derived oxidative burst response was largely ineffective against P. gingivalis infection, the corresponding oxidative response to the Rbr-positive microbe contributed to host-induced pathology via potent mobilization and systemic activation of neutrophils. It appeared that Rbr also provided protection against reactive nitrogen species, thereby ensuring the survival of P. gingivalis in the infected host. The presence of the rbr gene in P. gingivalis also led to greater oral bone loss upon infection. Collectively, these results indicate that the host oxidative burst paradoxically enhances the survival of P. gingivalis by exacerbating local and systemic inflammation, thereby contributing to the morbidity and mortality associated with infection.
Highlights
Phagocytic leukocytes, especially neutrophils, play a critical role in innate immune responses against bacteria, fungi, and other pathogens [1]
We show that P. gingivalis is resistant to reactive oxygen species, but that in mice, rubrerythrin shields the bacterium against reactive nitrogen species
Using P. gingivalis as a model organism for anaerobic infection, we initially investigated the role of NADPH oxidase–dependent mechanisms in the responses of mice to infection with anaerobic bacteria
Summary
Phagocytic leukocytes, especially neutrophils, play a critical role in innate immune responses against bacteria, fungi, and other pathogens [1]. Brinkman et al [5] have reported that these fibers become saturated with high concentrations of bactericidal peptides, proteins, and proteases, and are able to trap and efficiently kill invading bacteria that become entangled in the fiber meshwork. The significance of this oxygen-independent mechanism is exemplified by recurrent infections associated with two rare inherited diseases, Chediak-Higashi syndrome and specific granule deficiency, which are characterized by insufficient release of antimicrobial components and the absence of some antimicrobial components in specific and/or azurophilic granules, respectively [6]
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