Spontaneous activity, which is manifested as slow depolarization waves and action potentials, is observed in most (81%) smooth muscles (SMs) of the circular layer of the human colon. Independently of the type of pathology, inhibitory junction potentials (IJPs) in SMs of various parts of the human colon are evoked by intramural stimulation; ranges of parameters of these potentials were comparable with those observed in muscle intestinal fragments isolated at a distance of several tens of centimeters from the zone of injury. In muscle strips (MSs) of such fragments, pyridoxal-5′-phosphate (PPh) applied in different concentrations caused suppression of IJPs: in the concentration of 1·10−8 to 1·10−4 M it decreased the amplitude, and in the concentrations of 1·10−5 to 1·10−4 M and 1·10−4 M, respectively, it decreased rates of the half-amplitude rise and decay of these potentials. Pyridoxal (1·10−4 M) and 4-pyridoxolic acid (1·10−4 M) also caused a drop in the amplitude of IJPs; however, these agents influenced this parameter to a lesser extent, as compared with the effect of 1·10−4 M PPh. Pyridoxine (1·10−4 M) and pyridoxamine (1·10−4 M) evoked no significant changes in the parameters of IJPs in MSs of the human colon. Our data allow us to hypothesize that the suppressing effect of PPh on IJPs is determined by the presence of a purinergic component present in non-adrenergic inhibition of SMs of the human colon.