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Article

Chronic household air pollution exposure is associated with impaired alveolar macrophage function in Malawian non-smokers

Citation
Rylance J, Chimpini C, Semple S, Russell DG, Jackson MJ, Heyderman RS & Gordon SB (2015) Chronic household air pollution exposure is associated with impaired alveolar macrophage function in Malawian non-smokers. PLoS ONE, 10 (9), Art. No.: e0138762. https://doi.org/10.1371/journal.pone.0138762

Abstract
Background: Household air pollution in low income countries is an important cause of mortality from respiratory infection. We hypothesised that chronic smoke exposure is detrimental to alveolar macrophage function, causing failure of innate immunity. We report the relationship between macrophage function and prior smoke exposure in healthy Malawians.  Methods: Healthy subjects exposed daily to cooking smoke at home volunteered for bronchoalveolar lavage. Alveolar macrophage particulate content was measured as a known correlate of smoke exposure. Phagocytosis and intraphagosomal function (oxidative burst and proteolysis) were measured by a flow cytometric assay. Cytokine responses in macrophages were compared following re-exposure in vitro to wood smoke, before and after glutathione depletion.  Results: Volunteers had a range of alveolar macrophage particulate loading. The macrophage capacity for phagosomal oxidative burst was negatively associated with alveolar macrophage particulate content (n = 29, r2 = 0.16, p = 0.033), but phagocytosis per se and proteolytic function were unaffected. High particulate content was associated with lower baseline CXCL8 release (ratio 0.51, CI 0.29-0.89) and lower final concentrations on re-exposure to smoke in vitro (ratio 0.58, CI 0.34-0.97). Glutathione depletion augmented CXCL8 responses by 1.49× (CI 1.02-2.17) compared with wood smoke alone. This response was specific to smoke as macrophages response to LPS were not modulated by glutathione.  Conclusion: Chronic smoke exposure is associated with reduced human macrophage oxidative burst, and dampened inflammatory cytokine responses. These are critical processes in lung defence against infection and likely to underpin the relationship between air pollution and pneumonia.

Journal
PLoS ONE: Volume 10, Issue 9

StatusPublished
Author(s)Rylance, Jamie; Chimpini, Chikondi; Semple, Sean; Russell, David G; Jackson, Malcolm J; Heyderman, Robert S; Gordon, Stephen B
Publication date25/09/2015
Publication date online25/09/2015
Date accepted by journal03/09/2015
URLhttp://hdl.handle.net/1893/27236
PublisherPublic Library of Science
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