Calcium-sensitive nonselective cation channel identified in the epithelial cells isolated from the endolymphatic sac of guinea pigs.

We identified a Ca2+-sensitive cation channel in acutely dissociated epithelial cells from the endolymphatic sac (ES) of guinea pigs using the patch-clamp technique. Single-channel recordings showed that the cation channel had a conductance of 24.0 +/- 1.3 pS (n = 8) in our standard solution. The relative ionic permeability of the channel was in the order K+ = Na+ > Ca2+ >> Cl-. This channel was weakly voltage-dependent but was strongly activated by Ca2+ on the cytosolic side at a concentration of around 1 mm in inside-out excised patches. With cell-attached patches, however, the channel was activated by much lower Ca2+ concentrations. Treatment of the cells, under cell-attached configuration, with ionomycin (10 microm), carbonyl cyanide 3-chlorophenylhydrazone (CCCP, 20 microm), or ATP (1 mm), which increased intracellular Ca2+ concentration ([Ca2+]i), activated the channel at an estimated [Ca2+]i from 0.6 microm to 10 microm. It is suggested that some activators of the channel were deteriorated or washed out during the formation of excised patches. Based on this Ca2+ sensitivity, we speculated that the channel contributes to the regulation of ionic balance and volume of the ES by absorbing Na+ under certain pathological conditions that will increase [Ca2+]i. This is the first report of single-channel recordings in endolymphatic sac epithelial cells.