Abstract
Continuous positive airway pressure (CPAP) is a common mode of respiratory support for preterm infants. Recent studies from our lab, however, have shown that CPAP may contribute to the pathophysiology of airway hyperreactivity (AHR) associated with wheezing disorders in former preterm infants. The long‐term effects of CPAP on lung‐development, however, still remain largely unknown. Both hyaluronan synthase 3 (HAS3) and the calcium‐sensitive receptor (CaSR) have been associated with various respiratory morbidities. In the present study, we used a neonatal mouse model of daily CPAP treatment to investigate whether the long‐term effects on AHR are associated with changes in airway HAS3 and CaSR expression. Neonatal mice were exposed to CPAP (6cm H2O) for 3 hours per day for the first 7 postnatal days. Control animals experienced the same conditions as experimental animals only with no CPAP. On postnatal day 21, the lungs from these animals were harvested for either real time rt‐PCR or immunohistochemistry to assess changes in HAS3 and CaSR expression. We observed increased expression of multiple genes involved in hylauraonan synthesis, most notably has3, as well as increased CaSR expression, in the lungs of mice two weeks after CPAP ended when compared to control mice. The increased gene expression of has3 and CaSR was also reflected in increased protein expression as confirmed by immunohistochemistry. HAS3 was expressed predominantly in airway epithelium and the increased CaSR expression correlated with increased αSM actin. To further investigate the role of CaSR in CPAP‐induced AHR, CaSR KO mice (CaSR(−/−)) were exposed to CPAP and airway reactivity to methacholine challenge was assessed two weeks later (P21 days). Compared to control mice, AHR was not expressed in CaSR(−/−) mice suggesting resistance to CPAP treatment. These data suggest increased airway HAS3 and CaSR may be important modulators of CPAP‐induced AHR and remodeling.Support or Funding InformationHLR01138402HLR01056470
Published Version
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