Comparative Airway Response to Inhaled Bradykinin, Kallidin, and [des-Arg9]Bradykinin in Normal and Asthmatic Subjects

Abstract

Bradykinin, kallidin (lys-bradykinin), and [des-Arg⁹]bradykinin are oligopeptides that may contribute as mediators in the pathogenesis of asthma by interacting with specific receptors designated B₁ and B₂. In this study, we have investigated the airway response to inhaled bradykinin, kallidin, and [des-Arg⁹]bradykinin in normal and asthmatic subjects. Changes in airway caliber were followed as maximum expiratory flow at 30% of the vital capacity (Vp₃₀) and as forced expiratory volume in 1 s (FEV₁). Only one of the six normal subjects responded to bradykinin at the maximum cumulative concentration (5.33 mg/ml). Neither kallidin nor [des-Arg⁹]bradykinin had any measurable bronchoconstrictor effect in the normal subjects whether airway caliber was measured as Vp₃₀ or FEV₁. In the 10 subjects with asthma, bradykinin and kallidin, but not [des-Arg⁹]bradykinin, produced a concentration-related fall in FEV₁. The geometric mean provocation concentrations of Inhaled agonist reducing FEV₁ by 20% of baseline were 0.03, 0.08, and 0.44 mg/ml for bradykinin, kallidin, and histamine, respectively. Bronchoconstriction produced by bradykinin and kallidin was maximal within 3 to 5 min with recovery occurring over 30 to 45 min. Because bradykinin and kallidin are agonists of B₂ receptors and [des-Arg⁹]bradykinin is an agonist for B₁, receptors, these in vivo structure activity studies suggest that asthmatic, but not normal, airways are hyperresponsive to kinins when compared to histamine and that this potent bronchoconstrictor action is a specific pharmacologic effect compatible with the stimulation of B₂ receptors or a variant of these.