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Air Pollution Exposure Impairs Airway Epithelium IFN-β Expression in Pre-School Children
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Air Pollution Exposure Impairs Airway Epithelium IFN-β Expression in Pre-School Children
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Journal Article
Air Pollution Exposure Impairs Airway Epithelium IFN-β Expression in Pre-School Children
2021
Overview
Air pollution is a risk factor for respiratory infections and asthma exacerbations. We previously reported impaired Type-I and Type-III interferons (IFN-β/λ) from airway epithelial cells of preschool children with asthma and/or atopy. In this study we analyzed the association between rhinovirus-induced IFN-β/λ epithelial expression and acute exposure to the principal outdoor air pollutants in the same cohort.
We studied 34 children (17asthmatics/17non-asthmatics) undergoing fiberoptic bronchoscopy for clinical indications. Bronchial epithelial cells were harvested by brushing, cultured and experimentally infected with Rhinovirus Type 16 (RV16). RV16-induced IFN-β and λ expression was measured by quantitative real time PCR, as was RV16vRNA. The association between IFNs and the mean exposure to PM10, SO2 and NO
in the day preceding bronchoscopy was evaluated using a Generalized Linear Model (GLM) with Gamma distribution.
Acute exposure to PM10 and NO
was negatively associated to RV16-induced IFNβ mRNA. For each increase of 1ug/m
of NO
we found a significative decrease of 2.3x10
IFN-β mRNA copies and for each increase of 1ug/m
of PM10 a significative decrease of 1x10
IFN-β mRNA copies. No significant associations were detected between IFN-λ mRNA and NO
nor PM10. Increasing levels of NO
(but not PM10) were found to be associated to increased RV16 replication.
Short-term exposure to high levels of NO
and PM10 is associated to a reduced IFN-β expression by the airway epithelium, which may lead to increased viral replication. These findings suggest a potential mechanism underlying the link between air pollution, viral infections and asthma exacerbations.
Publisher
Frontiers Media SA,Frontiers Media S.A
Subject
/ Air Pollution - adverse effects
/ Asthma
/ Atopy
/ Biopsy
/ Blood
/ Child
/ Children
/ Environmental Exposure - adverse effects
/ Epithelial Cells - drug effects
/ Epithelial Cells - immunology
/ Epithelial Cells - metabolism
/ Female
/ Humans
/ Interferon-beta - metabolism
/ Italy
/ Male
/ mRNA
/ NO2
/ Particulate Matter - toxicity
/ PM10 (particulate matter <10 microns)
/ Proteins
/ Rhinovirus - growth & development
/ Skewness
