DUOX1 mediates persistent epithelial EGFR activation, mucous cell metaplasia, and airway remodeling during allergic asthma
Aida Habibovic, Milena Hristova, David E. Heppner, Karamatullah Danyal, Jennifer L. Ather, Yvonne M.W. Janssen-Heininger, Charles G. Irvin, Matthew E. Poynter, Lennart K. Lundblad, Anne E. Dixon, Miklos Geiszt, Albert van der Vliet
Aida Habibovic, Milena Hristova, David E. Heppner, Karamatullah Danyal, Jennifer L. Ather, Yvonne M.W. Janssen-Heininger, Charles G. Irvin, Matthew E. Poynter, Lennart K. Lundblad, Anne E. Dixon, Miklos Geiszt, Albert van der Vliet
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Research Article Inflammation Pulmonology

DUOX1 mediates persistent epithelial EGFR activation, mucous cell metaplasia, and airway remodeling during allergic asthma

Abstract

Chronic inflammation with mucous metaplasia and airway remodeling are hallmarks of allergic asthma, and these outcomes have been associated with enhanced expression and activation of EGFR signaling. Here, we demonstrate enhanced expression of EGFR ligands such as amphiregulin as well as constitutive EGFR activation in cultured nasal epithelial cells from asthmatic subjects compared with nonasthmatic controls and in lung tissues of mice during house dust mite–induced (HDM-induced) allergic inflammation. EGFR activation was associated with cysteine oxidation within EGFR and the nonreceptor tyrosine kinase Src, and both amphiregulin production and oxidative EGFR activation were diminished by pharmacologic or genetic inhibition of the epithelial NADPH oxidase dual oxidase 1 (DUOX1). DUOX1 deficiency also attenuated several EGFR-dependent features of HDM-induced allergic airway inflammation, including neutrophilic inflammation, type 2 cytokine production (IL-33, IL-13), mucous metaplasia, subepithelial fibrosis, and central airway resistance. Moreover, targeted inhibition of airway DUOX1 in mice with previously established HDM-induced allergic inflammation, by intratracheal administration of DUOX1-targeted siRNA or pharmacological NADPH oxidase inhibitors, reversed most of these outcomes. Our findings indicate an important function for DUOX1 in allergic inflammation related to persistent EGFR activation and suggest that DUOX1 targeting may represent an attractive strategy in asthma management.

Authors

Aida Habibovic, Milena Hristova, David E. Heppner, Karamatullah Danyal, Jennifer L. Ather, Yvonne M.W. Janssen-Heininger, Charles G. Irvin, Matthew E. Poynter, Lennart K. Lundblad, Anne E. Dixon, Miklos Geiszt, Albert van der Vliet

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Figure 4

DUOX1 mediates type 2 cytokine responses and ILC2 activation during house dust mite–induced inflammation.

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DUOX1 mediates type 2 cytokine responses and ILC2 activation during hous...
(A and B) Analysis of BAL cytokine levels of CXCL1 (KC) (A) and of type 2 cytokines, IL-33, IL-5, and IL-13 (B). (C) Analysis of IL-33–induced (10 ng/ml) production of ILC2-specific cytokines (IL-5, IL-13) and AREG from lung single-cell suspensions of PBS- or HDM-treated mice. (D and E) Flow cytometry analysis of ILC2 populations in lung tissues. (F) RT-PCR analysis of flow-sorted lung ILC2 populations from IL-33–triggered mice for type 2 cytokines, Areg, and Duox1. (G) Representative western blot analysis of Duox1 protein and β-actin in sorted ILC2 cells (mILC2) and primary mTECs. (H) Schematic representation of proposed interactions among DUOX1, EGFR, IL-33, and IL-13 within the airway. Black arrows reflect enzyme activation or stimulation of cytokine secretion, and red arrows indicate effects on mRNA expression. Dot plots represent mean ± SD of 8–12 replicates from 2–3 separate experiments. *P < 0.05 compared with corresponding controls by 2-way ANOVA.