Effects of aerosol-applied capsaicin, histamine and prostaglandin E2 on airway sensory receptors of anaesthetized cats

Abstract

1. Capsaicin, prostaglandin E2 (PGE2) and histamine are potent stimuli for reflex coughing and bronchoconstriction in many species including man. We have studied the effects of solutions of capsaicin, PGE2 and histamine on airway sensory receptors when administered as inhaled aerosols to the lower respiratory tract in anaesthetized, paralysed and artificially ventilated cats. 2. Histamine, administered by aerosol (6 breaths of a 1 mg ml-1 solution) and intravenously (10 micrograms kg-1), caused an increase in the rate of discharge from rapidly adapting stretch receptors (RARs) and caused bronchoconstriction. 3. Six breaths of a capsaicin aerosol generated from solutions of 0.1 or 1 mg ml-1 stimulated six out of nine RARs tested. Bronchoconstriction occurred with and without RAR stimulation. The diluent for the capsaicin aerosol had no significant effect on pulmonary mechanics or rate of RAR discharge. 4. Administration of increasing concentrations (0.001-1 mg ml-1) of PGE2 aerosol given in six breaths (at 6 min intervals) caused a dose-dependent increase in the rate of discharge of eight RARs tested and caused bronchoconstriction. The diluent for the PGE2 aerosol had no effect on pulmonary mechanics or rate of RAR discharge. 5. Inhalation of aerosols of histamine (6 breaths of 1 mg ml-1 solution) and capsaicin (3 breaths of 0.1 mg ml-1 solution) stimulated all six lung C fibre endings studied (3 pulmonary and 3 bronchial). These aerosols of capsaicin and histamine also caused bronchoconstriction. 6. We conclude that solutions of capsaicin and PGE2, when delivered by aerosol to the airway epithelial surface, are not selective stimulants of C fibres. Both agents can stimulate RARs. Activation of some but not all RARs tested, by inhaled capsaicin, suggests that there are subpopulations of capsaicin-sensitive and -insensitive receptors. Stimulation of airway RARs by a range of pharmacologically active agents released by airway inflammation may contribute to reflex coughing and bronchoconstriction in man.