Kinins are oligopeptides that may act as mediators in the pathogenesis of bronchial asthma by interacting with specific cell surface receptors designated B1 and B2. When administered by inhalation to asthmatic subjects, bradykinin and kallidin, but not [desArg9]-bradykinin, provoke potent bronchoconstriction, thus suggesting a specific effect compatible with the stimulation of B2 receptors. To characterize further the receptor(s) mediating this bronchospastic response we have carried out cross-tachyphylactic studies with inhaled bradykinin, kallidin, and [desArg9]-bradykinin, administered in a randomized double-blind fashion in a group of 10 asthmatic subjects. Inhalation of bradykinin and kallidin, but not [desArg9]-bradykinin, elicited concentration-related falls in forced expiratory volume in one second (FEV1) in all the subjects studied. The geometric mean provocation concentrations of inhaled agonists reducing FEV1 by 20% of baseline (PC20) were 0.12 and 0.28 mg.ml-1 for bradykinin and kallidin, respectively. When inhaled at concentrations up to 10.62 mg.ml-1, [desArg9]-bradykinin failed to provoke any significant fall in FEV1 from baseline in any of the subjects studied. Following recovery from the second bradykinin challenge, provocation with kallidin revealed a reduced response to this agonist, the PC20 value increasing from 0.28 to 1.23 mg.ml-1. Similarly, once the airways had recovered from the second kallidin challenge, provocation with bradykinin also showed a reduced response, the PC20Bk increasing from 0.12 to 0.94 mg.ml-1. Surprisingly, despite failing to cause bronchoconstriction, repeated exposures with inhaled [desArg9]-bradykinin reduced the airway response to bradykinin, the PC20Bk increasing from 0.12 to 0.41 mg.ml-1.(ABSTRACT TRUNCATED AT 250 WORDS)