Alveolar barrier disruption in varicella pneumonia is associated with neutrophil extracellular trap formation
Werner J.D. Ouwendijk, Henk-Jan van den Ham, Mark W. Delany, Jeroen J.A. van Kampen, Gijsbert P. van Nierop, Tamana Mehraban, Fatiha Zaaraoui-Boutahar, Wilfred F.J. van IJcken, Judith M.A. van den Brand, Rory D. de Vries, Arno C. Andeweg, Georges M.G.M. Verjans
Werner J.D. Ouwendijk, Henk-Jan van den Ham, Mark W. Delany, Jeroen J.A. van Kampen, Gijsbert P. van Nierop, Tamana Mehraban, Fatiha Zaaraoui-Boutahar, Wilfred F.J. van IJcken, Judith M.A. van den Brand, Rory D. de Vries, Arno C. Andeweg, Georges M.G.M. Verjans
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Research Article Pulmonology Virology

Alveolar barrier disruption in varicella pneumonia is associated with neutrophil extracellular trap formation

Abstract

Primary varicella-zoster virus (VZV) infection in adults is often complicated by severe pneumonia, which is difficult to treat and is associated with high morbidity and mortality. Here, the simian varicella virus (SVV) nonhuman primate (NHP) model was used to investigate the pathogenesis of varicella pneumonia. SVV infection resulted in transient fever, viremia, and robust virus replication in alveolar pneumocytes and bronchus-associated lymphoid tissue. Clearance of infectious virus from lungs coincided with robust innate immune responses, leading to recruitment of inflammatory cells, mainly neutrophils and lymphocytes, and finally severe acute lung injury. SVV infection caused neutrophil activation and formation of neutrophil extracellular traps (NETs) in vitro and in vivo. Notably, NETs were also detected in lung and blood specimens of varicella pneumonia patients. Lung pathology in the SVV NHP model was associated with dysregulated expression of alveolar epithelial cell tight junction proteins (claudin-2, claudin-10, and claudin-18) and alveolar endothelial adherens junction protein VE-cadherin. Importantly, factors released by activated neutrophils, including NETs, were sufficient to reduce claudin-18 and VE-cadherin expression in NHP lung slice cultures. Collectively, the data indicate that alveolar barrier disruption in varicella pneumonia is associated with NET formation.

Authors

Werner J.D. Ouwendijk, Henk-Jan van den Ham, Mark W. Delany, Jeroen J.A. van Kampen, Gijsbert P. van Nierop, Tamana Mehraban, Fatiha Zaaraoui-Boutahar, Wilfred F.J. van IJcken, Judith M.A. van den Brand, Rory D. de Vries, Arno C. Andeweg, Georges M.G.M. Verjans

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Figure 6

Neutrophils and NETs in lung tissue of SVV-infected cynomolgus macaques.

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Neutrophils and NETs in lung tissue of SVV-infected cynomolgus macaques....
(A) Heatmap showing DEGs involved in neutrophil chemotaxis. Log2-fold change in gene expression is shown. Color gradient: blue, –3; white, 0; red, +6. (B) Lung sections stained for neutrophil elastase by IHC (red) and counterstained with hematoxylin (blue). Scale bar: 100 μm. (C and D) Human neutrophils were cocultured with medium (mock), PMA, uninfected or SVV-EGFP–infected (green) BS-C-1 cells, and uninfected or VZV-EGFP-infected (green) ARPE-19 cells for 6 hours. NETs were identified by staining for DNA (blue) and neutrophil elastase (red), followed by confocal microscopy (C) for quantification (D). (C) Representative images are shown (n = 2 donors, n = 3 replicates). Arrowheads indicate NETs. Scale bar: 20 μm. *P < 0.05 and **P < 0.01 by unpaired Student’s t test. (E) Lung sections stained for citrullinated histone H3 (citH3; green), MPO (red), and DNA (Hoechst-33342; blue). Scale bar: 20 μm. Arrowheads, NETs. Split channel images are shown for the area indicated by white boxes. (F and G) Detection of His-DNA (F) and MPO-DNA (G) complexes in BAL and plasma by ELISA. **P < 0.01 and ***P < 0.001 by 1-way ANOVA and Bonferroni’s correction. ULD, upper limit of detection. y axis indicates absorbance at 405–492 nm (F) and absorbance at 450–620 nm (G). (F and G) Red squares, BAL/plasma samples in which MPO-DNA complexes were detected (absorbance values greater than the maximum absorbance measured in control animals; indicated by dashed line).