IL-36 receptor agonist and antagonist imbalance drives neutrophilic inflammation in COPD
Jonathan R. Baker, Peter S. Fenwick, Carolin K. Koss, Harriet B. Owles, Sarah L. Elkin, Jay Fine, Matthew Thomas, Karim C. El Kasmi, Peter J. Barnes, Louise E. Donnelly
Jonathan R. Baker, Peter S. Fenwick, Carolin K. Koss, Harriet B. Owles, Sarah L. Elkin, Jay Fine, Matthew Thomas, Karim C. El Kasmi, Peter J. Barnes, Louise E. Donnelly
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Research Article Cell biology Pulmonology

IL-36 receptor agonist and antagonist imbalance drives neutrophilic inflammation in COPD

Abstract

Current treatments fail to modify the underlying pathophysiology and disease progression of chronic obstructive pulmonary disease (COPD), necessitating alternative therapies. Here, we show that COPD subjects have increased IL-36γ and decreased IL-36 receptor antagonist (IL-36Ra) in bronchoalveolar and nasal fluid compared with control subjects. IL-36γ is derived from small airway epithelial cells (SAEC) and is further induced by a viral mimetic, whereas IL-36Ra is derived from macrophages. IL-36γ stimulates release of the neutrophil chemoattractants CXCL1 and CXCL8, as well as elastolytic matrix metalloproteinases (MMPs) from small airway fibroblasts (SAF). Proteases released from COPD neutrophils cleave and activate IL-36γ, thereby perpetuating IL-36 inflammation. Transfer of culture media from SAEC to SAF stimulated release of CXCL1, which was inhibited by exogenous IL-36Ra. The use of a therapeutic antibody that inhibits binding to the IL-36R attenuated IL-36γ–driven inflammation and cellular crosstalk. We have demonstrated a mechanism for the amplification and propagation of neutrophilic inflammation in COPD and have shown that blocking this cytokine family via a IL-36R neutralizing antibody could be a promising therapeutic strategy in the treatment of COPD.

Authors

Jonathan R. Baker, Peter S. Fenwick, Carolin K. Koss, Harriet B. Owles, Sarah L. Elkin, Jay Fine, Matthew Thomas, Karim C. El Kasmi, Peter J. Barnes, Louise E. Donnelly

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Figure 4

IL-36γ protein release is driven by steroid insensitive TLR3 activation.

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IL-36γ protein release is driven by steroid insensitive TLR3 activation....
(A) Small airway epithelial cells from nonsmokers (blue bars ●, n = 7) and COPD subjects (red bars ▲, n = 8) were exposed to media alone (no treatment, NT), 10% (v/v) cigarette smoke extract (CSE), 10 ng/mL TNF-α, 100μg/mL poly(I:C), or 1.5 × 1010 CFU/mL H. influenzae (HI) for 24 hours. Media was collected and IL-36γ release was measured by ELISA. (B) Small airway epithelial cells from n = 4 nonsmokers were treated with 100 μg/mL poly(I:C) in the presence or absence of increasing concentrations of budesonide for 24 hours. Media was collected, and IL-36γ was measured by ELISA. Data are shown as mean ± SEM and analyzed by 2 way ANOVA with post hoc Dunnett’s multiple-comparison test; **P < 0.01, ***P < 0.001 versus NS.