The major pulmonary effects of tachykinins, including bronchoconstriction, are mediated by activation of both neurokinin-1 (NK(1)) and neurokinin-2 (NK(2)) receptors. In guinea-pigs NK(1)and NK(2)receptor antagonists interact synergistically to inhibit the bronchoconstriction induced by neurokinin-A (NKA). However, the effect of combined NK(1)and NK(2)receptor antagonists on tachykinin-induced bronchoconstriction in most other species has not been evaluated. In this study, the interactive effects of CP 99994, an NK(1)receptor antagonist and SR 48968, an NK(2)receptor antagonist, were evaluated against NKA-induced brochospasm in dogs. Pulmonary resistance (R(L)) and dynamic lung compliance (C(Dyn)) were measured in anesthetized, spontaneously breathing dogs to measure the bronchoconstrictor response to aerosolized NKA (1%). Mean arterial blood pressure (MAP) and minute volume (MV) were also measured to assess the NK(1)receptor mediated cardiorespiratory response to substance P (100 ng/kg, iv). Pretreatment with SR 48968 (0.3-3 mg/kg, po) in the presence of an NK(1)antagonist dose of CP 99994 (10 mg/kg, po) inhibited the NKA-induced bronchospasm. However, the inhibition produced by SR 48968 plus CP 99994 was no greater than that previously shown for SR 48968 alone. Therefore, dual NK(1)/NK(2)receptor antagonists do not interact synergistically against NKA-induced bronchospasm in dogs. This may relate to the fact that dogs, like humans, have the NK(2)receptor as the predominant receptor subtype producing bronchoconstriction.