In longitudinal muscle of guinea-pig ileum, activation of muscarinic receptors causes contraction antagonised by M3 receptor subtype antagonists despite a preponderance of M2 receptor subtype binding sites. Experiments on single smooth muscle cells under voltage-clamp described here show that the cationic current evoked by carbachol which normally causes depolarization of the muscle is inhibited competitively by M2 antagonists with affinities typical of antagonism at a M2 receptor. However, M3 antagonists strongly reduced the maximum cationic current which could be evoked by carbachol in a non-competitive manner with affinities typical for an action at M3 receptors. Thus cation channels are gated by M2 receptor activation but strongly modulated by activation of M3 receptors.