Thesis on Oxidative Stress and "pneumonia"

Paper title
Reactive oxygen species regulate neutrophil recruitment and survival in pneumococcal pneumonia.
Abstract summary
Authors
H. Marriott, L. Jackson, T. S. Wilkinson, A. Simpson, T. Mitchell, D. Buttle, S. Cross, P. Ince, P. Hellewell, M. Whyte, D. Dockrell
Journal
American Journal of Respiratory and Critical Care Medicine
Semantic Scholar URL
https://semanticscholar.org/paper/711f08cdeef3efa979d57023b74ed27cb0a02b40
Abstract

RATIONALE

The role of NADPH oxidase activation in pneumonia is complex because reactive oxygen species contribute to both microbial killing and regulation of the acute pulmonary infiltrate. The relative importance of each role remains poorly defined in community-acquired pneumonia.

OBJECTIVES

We evaluated the contribution of NADPH oxidase-derived reactive oxygen species to the pathogenesis of pneumococcal pneumonia, addressing both the contribution to microbial killing and regulation of the inflammatory response.

METHODS

Mice deficient in the gp91(phox) component of the phagocyte NADPH oxidase were studied after pneumococcal challenge.

MEASUREMENTS AND MAIN RESULTS

gp91(phox)(-/-) mice demonstrated no defect in microbial clearance as compared with wild-type C57BL/6 mice. A significant increase in bacterial clearance from the lungs of gp91(phox)(-/-) mice was associated with increased numbers of neutrophils in the lung, lower rates of neutrophil apoptosis, and enhanced activation. Marked alterations in pulmonary cytokine/chemokine expression were also noted in the lungs of gp91(phox)(-/-) mice, characterized by elevated levels of tumor necrosis factor-alpha, KC, macrophage inflammatory protein-2, monocyte chemotactic protein-1, and IL-6. The greater numbers of neutrophils in gp91(phox)(-/-) mice were not associated with increased lung injury. Levels of neutrophil elastase in bronchoalveolar lavage were not decreased in gp91(phox)(-/-) mice.

CONCLUSIONS

During pneumococcal pneumonia, NADPH oxidase-derived reactive oxygen species are redundant for host defense but limit neutrophil recruitment and survival. Decreased NADPH oxidase-dependent reactive oxygen species production is well tolerated and improves disease outcome during pneumococcal pneumonia by removing neutrophils from the tight constraints of reactive oxygen species-mediated regulation.

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