Expression of muscarinic receptor subtypes in rat gastric smooth muscle was examined with reverse transcriptase-polymerase chain reaction (RT-PCR). Under the condition for detecting the messages of m1-m4 subtypes in brain, atrium, and gastric mucosa, only the fragments of m2 and m3 subtypes were amplified with RNA prepared from rat gastric smooth muscles. Furthermore, the amplified fragments were digested by restriction enzymes, reconfirming that the predicted size products of m2 and m3 contain the partial DNA sequences of m2 and m3 subtypes, respectively. We measured gastric motility in rats with a pressure transducer system under the continuous venous infusion of the muscarinic antagonists atropine and butylscopolamine (nonselective), AF-DX 116 (M2), zamifenacine (M3), and glucagon. Heart rate was monitored simultaneously in the tail. Gastric motility was inhibited in the presence of glucagon and zamifenacine without alteration of heart rate, whereas there was no inhibition in the presence of AF-DX 116 even after the augmentation of heart rate was observed. Gastric emptying was also suppressed in the presence of zamifenacine, which had an effect comparable with that of atropine, butylscopolamine, and glucagon. These results indicate that the activation of the M3 subtype in gastric smooth muscle causes its contraction, and the M3 selective antagonist could be a potentially useful drug without an adverse effect on the heart for radiological and endoscopic examination in the upper gastrointestinal tract.