The mechanism of electrodiffusive K+ transport in leaky epithelia and some of its consequences for anion transport.

The ventricular membrane of the epithelium from the choroid plexus of Necturus maculosus was probed with double-barrelled ion-selective microelectrodes while the ventricular bathing solution was changed abruptly. The transient states induced by increasing the external concentration of K+ or by the application of ouabain showed that the passive movements of K+ across the ventricular membrane were electro-diffusive and could be described by the Goldmann equation and one constant permeability (PK) of 24 X 10(-6) cm s-1. The passive efflux was balanced by a ouabain-sensitive influx. PK was different in different steady states; when the cell was acidified by half a pH unit by increasing CO2 in the bathing solutions from 1 to 5%, then PK decreased to 13 X 10(-6) cm s-1. Removal of Cl- from the bathing solution increased PK by 50% and reduction of Cl- transport by furosemide did not alter PK, consequently major movements of K+ were independent of Cl- movements. Depolarizations of the cell caused an increase in the cellular HCO-3 concentration due to an electrodiffusive permeability (PHCO3), the value of which was estimated to 17 X 10(-6) cm s-1.