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No involvement of alveolar macrophages in the initiation of carbon nanoparticle induced acute lung inflammation in mice.

Part. Fibre Toxicol. 13:33 (2016)
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Open Access Gold
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BACKGROUND: Carbonaceous nanoparticles (CNP) represent a major constituent of urban particulate air pollution, and inhalation of high CNP levels has been described to trigger a pro-inflammatory response of the lung. While several studies identified specific particle characteristics driving respiratory toxicity of low-solubility and low-toxicity particles such as CNP, the major lung cell type, which initiates and drives that response, remains still uncertain. Since alveolar macrophages (AM) are known to effectively phagocytose inhaled particles and play a crucial role for the initiation of pulmonary inflammation caused by invading microbes, we aimed to determine their role for sterile stimuli such as CNP by profiling the primary alveolar cell compartments of the lung. We exposed C57BL/6 mice to 20 μg CNP by intratracheal instillation and comprehensively investigated the expression of the underlying mediators during a time span of 3 to 72 h in three different lung cell populations: CD45- (negative) structural cells, CD45+ (positive) leukocytes, and by BAL recovered cells. RESULTS: Bronchoalveolar lavage (BAL) analysis revealed an acute inflammatory response characterized by the most prominent culmination of neutrophil granulocytes from 12 to 24 h after instillation, which declined to basal levels by day 7. As early as 3 h after CNP exposure 50 % of the AM revealed particle laden. BAL concentrations and lung gene expression profiles of TNFα, and the neutrophil chemoattractants CXCL1,-2 and-5 preceded the neutrophil recruitment and showed highest levels after 12 h of CNP exposure, pointing to a significant activation of the inflammation-evoking lung cells at this point of time. AM, isolated from lungs 3 to 12 h after CNP instillation, however, did not show a pro-inflammatory signature. On the contrary, gene expression analysis of different lung cell populations isolated 12 h after CNP instillation revealed CD45-, mainly representing alveolar epithelial type II (ATII) cells as major producer of inflammatory CXCL cytokines. Particularly by CD45- cells expressed Cxcl5 proved to be the most abundant chemokine, being 12 h after CNP exposure 24 (±11) fold induced. CONCLUSION: Our data suggests that AM are noninvolved in the initiation of the inflammatory response. ATII cells, which induced highest CXCL levels early on, might in contrast be the driver of acute neutrophilic inflammation upon pulmonary CNP exposure.
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Publication type Article: Journal article
Document type Scientific Article
Corresponding Author
Keywords Alveolar Epithelial Cell ; Alveolar Macrophage ; Carbonaceous Nanoparticles (cnp) ; Chemokines ; Intratracheal Instillation ; Lung Inflammation ; Neutrophils ; Sterile Inflammation; Innate Immune-responses; Epithelial-cells; Ultrafine Particles; Particulate Matter; Pulmonary Inflammation; Pneumococcal Pneumonia; Neutrophil Recruitment; Gene-expression; Surface-area; Activation
ISSN (print) / ISBN 1743-8977
e-ISSN 1743-8977
Quellenangaben Volume: 13, Issue: 1, Pages: , Article Number: 33 Supplement: ,
Publisher BioMed Central
Publishing Place London
Non-patent literature Publications
Reviewing status Peer reviewed