The effect of verapamil is reduced in isolated airway smooth muscle preparations lacking the epithelium.

The effect of epithelium removal on the reactivity of rabbit airway smooth muscle to bronchoactive agents and on the effect of verapamil was studied in vitro using preparations from several levels within the respiratory tree, i.e., trachea, primary (10) and secondary (20) bronchus. Methacholine contracted tissues from all three levels of airway. Histamine contracted strips from 20 bronchus, had an inconsistent action in strips from 10 bronchus and was without effect in tracheal preparations. K+ contracted tissues from the trachea and 10 bronchus, and had a mixed action in 20 bronchial strips. Removal of the epithelial cell layer variably affected the reactivity of the smooth muscle to the three agents studied. In 20 bronchus, epithelium removal potentiated responses to histamine and methacholine. In 10 bronchus, only responses to methacholine were consistently augmented. In tracheal preparations epithelium removal did not alter the reactivity of the tissue to any agent examined. Verapamil (1 microM) attenuated responses to all agents and increased in its potency from tracheal through 10 to 20 bronchial preparations. Following epithelium removal, verapamil was substantially less effective in 20 bronchi, yet its effects were unchanged in the trachea. The results indicate that the epithelial cell layer modulates airway smooth muscle reactivity; this phenomenon is apparently widespread in mammals, the modulatory effect is more prominent in the smaller airways, and the magnitude of the effect of verapamil on airway smooth muscle is, in part, related to the presence of the epithelium.