Mechanism of Cl secretion in canine trachea: Changes in intracellular chloride activity with secretion

Abstract

Cl-sensitive microelectrodes were employed to investigate the mechanism of Cl secretion by canine tracheal epithelium. In control tissues with a mean calculated short-circuit current (I _sc) of 18.1 μA/cm², the intracellular Cl activity (a _Cl ⁱ ) was 47.2mm. This value is 30.1mm (or 27.0 mV) above the electrochemical equilibrium for Cl across the apical membrane. Epinephrine, which stimulates Cl secretion, increased the calculatedI _sc to 160 μA/cm² and decreaseda _Cl ⁱ to 32.2mm, a value only 11.2mm (or 10.9 mV) above equilibrium for the apical membrane. These results indicate a secretagogue induced decrease in the impedance to Cl exit from the cell via the apical membrane. From these and prior measurements we calculate that epinephrine-induced Cl efflux from the cell can occur by simple diffusion across the apical membrane. Further implications of these calculations are also discussed.