Developmental changes in brainstem neurons regulating lower airway caliber

Abstract

Premature infants are at risk for lower airway obstruction; however, maturation of reflex pathways regulating lower airway patency is inadequately studied. We hypothesized that postnatal maturation causes developmental change in brainstem efferent airway-related vagal preganglionic neurons (AVPNs) within the rostral nucleus ambiguus (rNA) that project to the airways and in pulmonary afferent fibers that terminate in the nucleus tractus solitarius (NTS). Ferrets aged 7, 14, 21, and 42 d received intrapulmonary injection of cholera toxin (CT)-β subunit, a transganglionic retrograde tracer. Five days later, their brainstem was processed for dual immunolabeling of CT-β and the cholinergic marker, choline acetyl transferase. CT-β-labeled AVPNs and CT-β-labeled afferent fiber optical density (OD) were analyzed. There was a significantly higher CT-β-labeled cell number within the rNA at the youngest compared with older ages. All efferent CT-β-labeled cells expressed choline acetyl transferase. OD of CT-β-labeled afferent fibers was also higher at 7 d compared with 14 d. We conclude that the number of efferent AVPNs and afferent fiber OD both diminish over the second postnatal week. We speculate that exposure to injurious agents in early postnatal life may inhibit natural remodeling and thereby enhance later vulnerability to airway hyperreactivity. Copyright © 2009 International Pediatric Research Foundation, Inc.