Characterization of a 25-pS nonselective cation channel in a cultured secretory epithelial cell line

Abstract

We have studied a 25-pS nonselective cation channel from the apical membranes of cell line ST₈₈₅, derived from neonatal mouse mandibular glands. Its Cl⁻ permeability was not significantly different from zero. The permeabilities (relative to Na⁺) for inorganic cations were NH ₄ ⁺ (1.87)>K⁺(1.12)>Li⁺ (1.02)>Na⁺(1)>Rb⁺(0.81)>Mg²⁺(0.07)>Ca²⁺(0.002), and for organic cations, guanidinium (1.61)4-aminopyridine (0.66)>diethylamine (0.54)>piperazine (0.25)>Tris (0.18)>N-methylglucamine (0.12). The Tris and N-methylglucamine permeabilities differed significantly from zero. Fitting the Renkin equation indicated that the channel had an equivalent pore radius of 0.49 nm. The channel was activated by Ca²⁺ on the cytosolic surface (>0.1 mmol/liter) with a Hill coefficient of 1.2; it was also activated by depolarization. Open- and closed-time histograms indicated that it had at least two open and two closed states. The channel was blocked by cytosolic AMP or ATP (0.1 mmol/liter). It was also blocked by the Cl⁻ channel blocker, diphenylamine-2-carboxylate (DPC; 0.1 mmol/liter), applied to the extracellular but not the cytosolic surface. 4-Aminopyridine, which permeated the channel when applied to the extracellular surface, blocked it when applied in low concentrations (5 mmol/liter) to the cytosolic surface. Quinine (0.1 mmol/liter) blocked from both the extracellular and cytosolic surfaces, blockade from either side being enhanced by depolarization. The channel was held open by application of SITS (0.1 mmol/liter) to the cytosolic surface. The channel shows striking similarities to the nicotinic acetylcholine receptor channel,viz., both channel types are abnormally permeable to 4-aminopyridine applied externally, and their selectivity sequences for inorganic ions are similar and for organic cations are identical.