Adrenergic regulation of ion transport across adult alveolar epithelial cells: effects on Cl- channel activation and transport function in cultures with an apical air interface.

The effect of beta-adrenergic receptor stimulation on Cl- channel activation was investigated in alveolar epithelial cells grown in monolayer culture and in freshly isolated cells. Monolayers cultured under apical air interface conditions exhibited enhanced amiloride-sensitive Na+ transport compared to apical liquid interface monolayers. Amiloride or benzamil inhibited most (66%) of the basal short circuit current (Isc) with half-maximal inhibitory concentration (IC50) values of 0.62 microm and 0.09 microm respectively. Basolateral addition of terbutaline (2 microm) produced a rapid decrease in Isc followed by a slow recovery that exceeded the basal Isc. When Cl- was replaced with methanesulfonate in either intact monolayers or basolateral membrane permeabilized monolayers, the response to terbutaline (2 microm) was completely inhibited. No effect of terbutaline on amiloride-sensitive Na+ current was detected. beta-Adrenergic agonists and 8-chlorothiophenyl cyclic adenosine monophosphate (8-ctp cAMP) directly stimulated a Cl- channel in freshly isolated alveolar epithelial cells. The current was blocked by glibenclamide (100 microm) and had a reversal potential of -22 mV. No increase in amiloride-sensitve current was detected in response to terbutaline or 8-cpt cAMP stimulation. These data support the conclusion that beta-adrenergic agonists produce acute activation of apical Cl- channels and that monolayers maintained under apical air interface conditions exhibit increased Na+ absorption.