. Developmental changes in nitric oxide synthase isoform expression and nitric oxide production in fetal baboon lung. Am J Physiol Lung Cell Mol Physiol 283: L1192-L1199, 2002. First published July 3, 2002 10.1152/ajplung.00112.2002, produced by NO synthase (NOS), plays a critical role in multiple processes in the lung during the perinatal period. To better understand the regulation of pulmonary NO production in the developing primate, we determined the cell specificity and developmental changes in NOS isoform expression and action in the lungs of third-trimester fetal baboons. Immunohistochemistry in lungs obtained at 175 days (d) of gestation (term ϭ 185 d) revealed that all three NOS isoforms, neuronal NOS (nNOS), endothelial NOS (eNOS), and inducible NOS (iNOS), are primarily expressed in proximal airway epithelium. In proximal lung, there was a marked increase in total NOS enzymatic activity from 125 to 140 d gestation due to elevations in nNOS and eNOS, whereas iNOS expression and activity were minimal. Total NOS activity was constant from 140 to 175 d gestation, and during the latter stage (160-175 d gestation), a dramatic fall in nNOS and eNOS was replaced by a rise in iNOS. Studies done within 1 h of delivery at 125 or 140 d gestation revealed that the principal increase in NOS during the third trimester is associated with an elevation in exhaled NO levels, a decline in expiratory resistance, and greater pulmonary compliance. Thus, there are developmental increases in pulmonary NOS expression and NO production during the early third trimester in the primate that may enhance airway and parenchymal function in the immediate postnatal period. airway epithelium; compliance; expiratory resistance; primate THE SIGNALING MOLECULE nitric oxide (NO), produced by nitric oxide synthase (NOS), plays a critical role in physiological processes in the pulmonary epithelium (1,10,17). NO is detectable in expired gas (9), and studies in both animals and humans suggest that the principle source of expired NO is the lung epithelium rather than the pulmonary vasculature (7, 12). The functions of NO in the mature airway include neurotransmission, smooth muscle relaxation, and bacteriostasis, and also the modulation of mucin secretion, ciliary motility, and plasma exudation (1, 10).There is mounting evidence that NO is of great importance to lung epithelial function in the perinatal period. The stimulation of NO synthesis by acetylcholine or bradykinin causes marked decreases in lung liquid production in late-gestation fetal lambs (5), and the instillation of NO or cGMP, the second messenger for NO, into the fetal lung liquid has the same effect (4, 6). The decrease in lung liquid production by the respiratory epithelium at the time of birth is an essential component of the transition of the fetus from a liquidbreathing to an air-breathing status. Epithelium-derived NO is also critical to the regulation of bronchomotor tone in the early newborn period, playing an important role in the opposition of airway contraction (14). ...
