Abstract
Respiratory complications are the major cause of morbidity and mortality among preterm infants, which is partially prevented by the administration of antenatal corticosteroids (ACS). Most very preterm infants are exposed to chorioamnionitis, but short- and long-term effects of ACS treatment in this setting are not well defined. In low-resource settings, ACS increased neonatal mortality by perhaps increasing infection. We report that treatment with low-dose ACS in the setting of inflammation induced by intraamniotic lipopolysaccharide (LPS) in rhesus macaques improves lung compliance and increases surfactant production relative to either exposure alone. RNA sequencing shows that these changes are mediated by suppression of proliferation and induction of mesenchymal cellular death via TP53. The combined exposure results in a mature-like transcriptomic profile with inhibition of extracellular matrix development by suppression of collagen genes COL1A1, COL1A2, and COL3A1 and regulators of lung development FGF9 and FGF10. ACS and inflammation also suppressed signature genes associated with proliferative mesenchymal progenitors similar to the term gestation lung. Treatment with ACS in the setting of inflammation may result in early respiratory advantage to preterm infants, but this advantage may come at a risk of abnormal extracellular matrix development, which may be associated with increased risk of chronic lung disease.
Highlights
Respiratory complications are a frequent cause of morbidity and mortality among extreme preterm infants [1]
Our goal was to determine the effect of prenatal inflammation on fetal lung maturation and its interaction with antenatal corticosteroids (ACS) on pathways of lung development in preterm rhesus macaque fetuses
Most preterm infants are exposed to inflammation prior to preterm birth [10], but the effects of this exposure to the neonatal lung function are not well understood
Summary
Respiratory complications are a frequent cause of morbidity and mortality among extreme preterm infants [1]. Lung adaptation to air breathing requires complex interactions of diverse cell types that will allow the transition to extrauterine life [2]. Some of these processes can be accelerated by administration of antenatal corticosteroids (ACS). Decreased incidence of respiratory distress syndrome (RDS) has been associated with chorioamnionitis and prenatal inflammation [5, 6] This association in clinical studies has been inconsistent due to the variability of exposures and in clinical diagnoses [7], it is congruent with the observation of improved lung compliance and increased surfactant production in animal models of chorioamnionitis [8, 9]
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