Contractions induced by electrical field stimulation of sensory non-cholinergic excitatory nerves in guinea-pig isolated bronchi are due to the release of substance P (SP) and related tachykinins. Release of such neuropeptides are thought to play a pathophysiological role in asthma. Two K+ channel openers cromakalim (pD2 = 6.45; Emax = 95%) and pinacidil (pD2 = 6.06; Emax = 87%) were shown to concentration-dependently inhibit non-cholinergic nerve-mediated contractions in guinea-pig bronchi in vitro. Cromakalim (pD2 = 6.27; Emax = 25%) and pinacidil (pD2 = 6.03; Emax = 25%) each had a much lower inhibitory efficacy against contractions induced by exogenously applied SP but the same potency as found against contractile responses to non-cholinergic neurostimulation. Also the beta 2-adrenoceptor agonist terbutaline (pD2 = 8.29; Emax = 83%), the xanthine derivative theophylline (pD2 = 4.19; Emax = 100%) and the Ca2+ blocker verapamil (pD2 = 5.55; Emax = 100%) suppressed responses to non-cholinergic neurostimulation. Terbutaline (pD2 = 6.32; Emax = 74%), theophylline (pD2 = 3.25; Emax = 71%) and verapamil (pD2 = 4.01; Emax = 100%) had a 10-100-fold lower inhibitory potency against SP-induced contractions but each drug showed about the same efficacy as found against nerve-mediated contractions. Glibenclamide (1 microM) reversed the inhibitory effects of cromakalim and pinacidil on neurally-mediated contractions but did not influence the effects of terbutaline, theophylline and verapamil. The results demonstrate that cromakalim, pinacidil, terbutaline, theophylline and verapamil inhibit non-cholinergic excitatory neurotransmission in guinea-pig bronchi and suggest that they act preferentially at a pre-junctional site.