Early expression of beta- and gamma-subunits of epithelial sodium channel during human airway development.

The amiloride-sensitive epithelial Na(+) channel (ENaC) is an apical membrane protein complex involved in active Na(+) absorption and in control of fluid composition in airways. There are no data reporting the distribution of its pore-forming alpha-, beta-, and gamma-subunits in the developing human lung. With use of two different rabbit polyclonal antisera raised against beta- and gamma-ENaC, immunohistochemical localization of the channel was performed in fetal (10-35 wk) and in adult human airways. Both subunits were detected after 17 wk of gestation on the apical domain of bronchial ciliated cells, in glandular ducts, and in bronchiolar ciliated and Clara cells. After 30 wk, the distribution of beta- and gamma-subunits was similar in fetal and adult airways. In large airways, the two subunits were detected in ciliated cells, in cells lining glandular ducts, and in the serous gland cells. In the distal bronchioles, beta- and gamma-subunits were identified in ciliated and Clara cells. Ultrastructural immunogold labeling confirmed the identification of beta- and gamma-ENaC proteins in submucosal serous cells and bronchiolar Clara cells. Early expression of ENaC proteins in human fetal airways suggests that Na(+) absorption might begin significantly before birth, even if secretion is still dominant.