Nonadrenergic inhibitory junction potentials (IJPs), evoked by intramural nerve stimulation, were studied in the smooth muscle of the guinea-pig stomach, cecum, and colon, using a modified sucrose-gap technique. After incubating smooth muscle preparations for 4–9 h in potassium-free Krebs solution, IJPs were abolished, but reappeared when cesium ions (6 mM) were added to the Krebs solution. Under these conditions, in the majority of cases the amplitude of the IJP was half as small, and the latency and duration were significantly longer, than in normal conditions; also ATP, but not adenosine, caused hyperpolarization of the smooth muscle membrane. The amplitude of the IJP depended on the extracellular concentration of cesium. In all types of preparation, in cesium-containing Krebs solution, apamin usually abolished the IJP and responses to ATP. These results are consonant with the purinergic hypothesis of inhibitory neuromuscular transmission. The generation of the IJP in these potassium-free conditions depends on cesium ions, which pass through the small-conductance apamin-sensitive, calcium-dependent potassium channels.