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Σάββατο 16 Δεκεμβρίου 2017

Neonatal hyperoxia promotes asthma-like features through IL-33-dependent ILC2 responses

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Publication date: Available online 15 December 2017
Source:Journal of Allergy and Clinical Immunology
Author(s): In Su Cheon, Young Min Son, Li Jiang, Nicholas P. Goplen, Mark H. Kaplan, Andrew H. Limper, Hirohito Kita, Sophie Paczesny, Y.S. Prakash, Robert Tepper, Shawn K. Ahlfeld, Jie Sun
BackgroundPremature infants often require oxygen supplementation and, therefore, are exposed to oxidative stress. Following oxygen exposure, preterm infants frequently develop chronic lung disease and have a significantly increased risk of asthma.ObjectiveWe sought to identify the underlying mechanisms by which neonatal hyperoxia promotes asthma development.MethodsMice were exposed to neonatal hyperoxia followed by a period room air recovery. A group of mice were also intranasally exposed to house dust mite antigen (HDM). Assessments were performed at various time points for evaluation of airway hyperresponsiveness (AHR), eosinophilia, mucus production, inflammatory gene expression, T helper (Th) and group 2 innate lymphoid cell (ILC2) responses. Sera from term- and preterm-born infants were also collected and the levels of IL-33 and type 2 cytokines were measured.ResultsNeonatal hyperoxia induced asthma-like features including AHR, mucus hyperplasia, airway eosinophilia, and type 2 pulmonary inflammation. In addition, neonatal hyperoxia promoted allergic Th responses to HDM exposure. Elevated IL-33 levels and ILC2 responses were observed in the lungs most likely due to oxidative stress caused by neonatal hyperoxia. IL-33 receptor signaling and ILC2s were vital for the induction of asthma-like features following neonatal hyperoxia. Serum IL-33 levels correlated significantly with serum levels of IL-5 and IL-13, but not IL-4 in preterm infants.ConclusionThese data demonstrate that an axis involving IL-33 and ILC2s is important for the development of asthma-like features following neonatal hyperoxia and suggest therapeutic potential for targeting IL-33, ILC2s, and oxidative stress to prevent and/or treat asthma development related to prematurity.



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