Kazuhiro Mori1, Kazushige Ikeda, Mamoru Tanaka. 1. Division of Neonatology, Department of Pediatrics, Keio University School of Medicine, Tokyo, Japan. kazuiked@sc.itc.keio.ac.jp
Abstract
AIM: The aim of this study is to evaluate the maturation of pulmonary epithelial cells in human fetal lungs at 21 weeks' gestation. METHODS: Eight fetuses at 21 weeks' gestation were evaluated. The maturation of pulmonary epithelial cells was assessed by immunohistochemical examination for surfactant proteins and by electron microscopy. RESULTS: Surfactant protein B mature peptide was detected slightly in the epithelial lining of the bronchioles, but was totally absent in the terminal airways. Surfactant protein B proprotein was clearly detected in the epithelial lining of both bronchioles and terminal airways. Transmission electron microscopy of terminal airway cells showed abundant glycogen granules and few intracellular organelles. CONCLUSIONS: The production of mature surfactant protein B in terminal airways is scarce at 21 weeks' gestation, which is associated with the immature mechanism of proprotein processing in the cytoplasm.
AIM: The aim of this study is to evaluate the maturation of pulmonary epithelial cells in human fetal lungs at 21 weeks' gestation. METHODS: Eight fetuses at 21 weeks' gestation were evaluated. The maturation of pulmonary epithelial cells was assessed by immunohistochemical examination for surfactant proteins and by electron microscopy. RESULTS:Surfactant protein B mature peptide was detected slightly in the epithelial lining of the bronchioles, but was totally absent in the terminal airways. Surfactant protein B proprotein was clearly detected in the epithelial lining of both bronchioles and terminal airways. Transmission electron microscopy of terminal airway cells showed abundant glycogen granules and few intracellular organelles. CONCLUSIONS: The production of mature surfactant protein B in terminal airways is scarce at 21 weeks' gestation, which is associated with the immature mechanism of proprotein processing in the cytoplasm.
Authors: Aaron Hamvas; Hillary B Heins; Susan H Guttentag; Daniel J Wegner; Michelle A Trusgnich; Kate W Bennet; Ping Yang; Christopher S Carlson; Ping An; F Sessions Cole Journal: Neonatology Date: 2008-09-06 Impact factor: 4.035