Allergen inhalation generates pro-inflammatory oxidised phosphatidylcholine associated with airway dysfunction

Author:

Pascoe Christopher D.ORCID,Jha Aruni,Ryu Min Hyung,Ragheb Mirna,Vaghasiya Jignesh,Basu Sujata,Stelmack Gerald L.,Srinathan Sadeesh,Kidane Biniam,Kindrachuk Jason,O'Byrne Paul M.ORCID,Gauvreau Gail M.,Ravandi Amir,Carlsten ChristopherORCID,Halayko Andrew J.ORCID

Abstract

Oxidised phosphatidylcholines (OxPCs) are produced under conditions of elevated oxidative stress and can contribute to human disease pathobiology. However, their role in allergic asthma is unexplored. The aim of this study was to characterise the OxPC profile in the airways after allergen challenge of people with airway hyperresponsiveness (AHR) or mild asthma. The capacity of OxPCs to contribute to pathobiology associated with asthma was also to be determined.Using bronchoalveolar lavage fluid from two human cohorts, OxPC species were quantified using ultra-high performance liquid chromatography-tandem mass spectrometry. Murine thin-cut lung slices were used to measure airway narrowing caused by OxPCs. Human airway smooth muscle (HASM) cells were exposed to OxPCs to assess concentration-associated changes in inflammatory phenotype and activation of signalling networks.OxPC profiles in the airways were different between people with and without AHR and correlated with methacholine responsiveness. Exposing patients with mild asthma to allergens produced unique OxPC signatures that associated with the severity of the late asthma response. OxPCs dose-dependently induced 15% airway narrowing in murine thin-cut lung slices. In HASM cells, OxPCs dose-dependently increased the biosynthesis of cyclooxygenase-2, interleukin (IL)-6, IL-8, granulocyte−macrophage colony-stimulating factor and the production of oxylipins via protein kinase C-dependent pathways.Data from human cohorts and primary HASM cell culture show that OxPCs are present in the airways, increase after allergen challenge and correlate with metrics of airway dysfunction. Furthermore, OxPCs may contribute to asthma pathobiology by promoting airway narrowing and inducing a pro-inflammatory phenotype and contraction of airway smooth muscle. OxPCs represent a potential novel target for treating oxidative stress-associated pathobiology in asthma.

Funder

WorkSafeBC

Canadian Institutes of Health Research

Canada Research Chairs

Publisher

European Respiratory Society (ERS)

Subject

Pulmonary and Respiratory Medicine

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