Fibrotic lung disease inhibits immune responses to staphylococcal pneumonia via impaired neutrophil and macrophage function
Helen I. Warheit-Niemi, Summer J. Edwards, Shuvasree SenGupta, Carole A. Parent, Xiaofeng Zhou, David N. O’Dwyer, Bethany B. Moore
Helen I. Warheit-Niemi, Summer J. Edwards, Shuvasree SenGupta, Carole A. Parent, Xiaofeng Zhou, David N. O’Dwyer, Bethany B. Moore
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Research Article Immunology Pulmonology

Fibrotic lung disease inhibits immune responses to staphylococcal pneumonia via impaired neutrophil and macrophage function

Abstract

Idiopathic pulmonary fibrosis (IPF) is a progressive and fatal disease characterized by collagen deposition within the lung interstitium. Bacterial infection is associated with increased morbidity and more rapid mortality in IPF patient populations, and pathogens such as methicillin-resistant Staphylococcus aureus (MRSA) are commonly isolated from the lungs of hospitalized patients with IPF. Despite this, the effects of fibrotic lung injury on critical immune responses to infection remain unknown. In the present study, we show that, like humans with IPF, fibrotic mice infected with MRSA exhibit increased morbidity and mortality compared with uninfected fibrotic mice. We determine that fibrosis conferred a defect in MRSA clearance compared with nonfibrotic mice, resulting from blunted innate immune responses. We show that fibrosis inhibited neutrophil intracellular killing of MRSA through impaired neutrophil elastase release and oxidative radical production. Additionally, we demonstrate that lung macrophages from fibrotic mice have impaired phagocytosis of MRSA. Our study describes potentially novel impairments of antimicrobial responses upon pulmonary fibrosis development, and our findings suggest a possible mechanism for why patients with IPF are at greater risk of morbidity and mortality related to infection.

Authors

Helen I. Warheit-Niemi, Summer J. Edwards, Shuvasree SenGupta, Carole A. Parent, Xiaofeng Zhou, David N. O’Dwyer, Bethany B. Moore

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Figure 5

Neutrophils from fibrotic mice have impaired intracellular bacterial killing.

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Neutrophils from fibrotic mice have impaired intracellular bacterial kil...
(A) Quantification of neutrophils isolated from mice treated with saline + MRSA (n = 4), bleomycin + MRSA (n = 4), or bleomycin + MRSA + rCXCL1 (n = 4) (1 × 107 CFU, 21 days after bleomycin). Data from 1 experiment. (B) Lung bacterial burden measured from mice in A. (C) Intracellular bacterial survival after uptake and killing of opsonized MRSA by lung and bone marrow neutrophils infected with MRSA ex vivo. Percentage survival is calculated by dividing the intracellular CFU quantified after 2 hours by the intracellular CFU quantified after 30 minutes and is representative of the bacterial killing by neutrophils. Dots represent technical replicates of pooled cells (lung: saline n = 10, bleomycin n = 9; bone marrow: saline n = 11, bleomycin n = 11). Lung cells from 5–6 mice per group; bone marrow cells from 2–3 mice per group. (D and E) Phagocytosis of opsonized (D) or nonopsonized (E) MRSA after 30 minutes by lung and bone marrow neutrophils infected ex vivo. Dots represent technical replicates of pooled cells (lung opsonized: saline n = 9, bleomycin n = 9; bone marrow opsonized: saline n = 11, bleomycin n = 7; lung nonopsonized: saline n = 6, bleomycin n = 5; bone marrow nonopsonized: n = 6). Lung cells from 5–6 mice per group; bone marrow cells from 2–3 mice per group. For all experiments: Data are representative of 2 or more independent experiments unless otherwise specified. Data represent the means ± SD. Statistical analysis by 1-way ANOVA with Tukey’s multiple comparisons (A and B) or unpaired Student’s t test (CE). *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.