Neonatal oxygen exposure alters airway hyper‐responsiveness but not the response to allergen challenge in adult mice

JF Regal, BP Lawrence, AC Johnson… - Pediatric Allergy and …, 2014 - Wiley Online Library
JF Regal, BP Lawrence, AC Johnson, SJ Lojovich, MA O'Reilly
Pediatric Allergy and Immunology, 2014Wiley Online Library
Background Infants born prematurely are often treated with supplemental oxygen, which can
increase their risk for airway hyper‐responsiveness (AHR), asthma, reduced lung function,
and altered responses to respiratory viral infections later in childhood. Likewise, exposure of
newborn mice to hyperoxia alters baseline pulmonary mechanics and the host response to
influenza A virus infection in adult mice. Here, we use this mouse model to test the
hypothesis that neonatal hyperoxia also promotes AHR and exacerbated allergen‐induced …
Background
Infants born prematurely are often treated with supplemental oxygen, which can increase their risk for airway hyper‐responsiveness (AHR), asthma, reduced lung function, and altered responses to respiratory viral infections later in childhood. Likewise, exposure of newborn mice to hyperoxia alters baseline pulmonary mechanics and the host response to influenza A virus infection in adult mice. Here, we use this mouse model to test the hypothesis that neonatal hyperoxia also promotes AHR and exacerbated allergen‐induced symptoms in adult mice.
Methods
Baseline lung mechanics and AHR measured by methacholine provocation were assessed in adult male and female mice exposed to room air or 100% oxygen (hyperoxia) between post‐natal days 0–4. AHR and lung inflammation were evaluated after adult female mice were sensitized with ovalbumin (OVA) plus alum and challenged with aerosolized OVA.
Results
Baseline lung compliance increased and resistance decreased in adult female, but not male, mice exposed to neonatal hyperoxia compared with siblings exposed to room air. Neonatal hyperoxia significantly enhanced methacholine‐induced AHR in female mice, but did not affect allergen‐induced AHR to methacholine or lung inflammation.
Conclusion
Increased incidence of AHR and asthma is reported in children born prematurely and exposed to supplemental oxygen. Our findings in adult female mice exposed to hyperoxia as neonates suggest that this AHR reported in children born prematurely may reflect non‐atopic wheezing due to intrinsic structural changes in airway development.
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