Volume-activated Rb+ transport in astrocytes in culture.

The involvement of K+ on the volume regulatory process in astrocytes was investigated by characterizing the hyposmolarity-induced efflux of K+ using 86Rb as a tracer. About 70 and 30% of the intracellular content of 86Rb was released after reductions in osmolarity from 320 to 160 or 220 mosM, respectively, during the time in which cells exhibit a volume regulatory response subsequent to swelling. No significant increase in 86Rb efflux was observed with lower reductions in osmolarity. The 86Rb efflux was Ca2+ independent and insensitive to temperature. It was inhibited by furosemide but not by bumetanide and was unaffected when nitrate, but not gluconate, replaced intracellular Cl-. The efflux was markedly inhibited by quinidine and by 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid. Quinidine also prevented the volume regulatory decrease of cells, and this effect was overcome when a large cation permeability was imposed by gramicidin. In isosmotic conditions 86Rb efflux was not activated by N-ethylmaleimide, but this drug strongly inhibited the hyposmolarity-activated release. These findings suggest that 86Rb efflux from astrocytes associated to cell swelling is not mediated by an electroneutral cotransporter and rather favor the implication of a conductive exit pathway that may be a Ca(2+)-independent K+ channel.