We study bradykinin-stimulated K+ efflux in Madin-Darby canine kidney (MDCK) cells using 86Rb as an isotopic tracer. Bradykinin brings about a rapid increase in the permeability of MDCK cells to K+, the effect is dose-dependent with a plateau at 10(-6) M. The effect seems to be mediated by Ca2+-activated K+ channels, localised at the basolateral aspect of the epithelium. Unlike alpha-receptors, which mediate a similar effect of adrenalin in these cells, bradykinin receptors seem to be present at both sides of the epithelium. Bradykinin increases the labelling of IP3, and bradykinin-stimulated K+ efflux persists even in cells which are bathed in Ca2+-free medium, suggesting that the effects seen in the present work are probably due to Ca2+ release from intracellular stores. Some extracellular Ca2+ also might be involved in the bradykinin effect, consistent with the kinin-increasing membrane permeability to Ca2+.