Effect of bradykinin on allergen induced increase in exhaled nitric oxide in asthma

Abstract

Background: Exposure of patients with atopic asthma to allergens produces a long term increase in exhaled nitric oxide (FE_NO), probably reflecting inducible NO synthase (NOS) expression. In contrast, bradykinin (BK) rapidly reduces FE_NO. It is unknown whether BK suppresses increased FE_NO production after allergen exposure in asthma, and whether it modulates FE_NO via NOS inhibition. Methods: Levels of FE_NO in response to aerosolised BK were studied before (day 3) and 48 hours after (day 10) randomised diluent (diluent/placebo/BK (Dil/P/BK)), allergen (allergen/placebo/BK (All/P/BK), and allergen/l-NMMA/BK (All/L/BK)) challenges (day 8) in 10 atopic, steroid naïve, mild asthmatic patients with dual responses to inhaled house dust mite extract. To determine whether BK modulates FE_NO via NOS inhibition, subjects performed pre- and post-allergen BK challenges after pretreatment with the NOS inhibitor l-NMMA in the All/L/BK period. Results: Allergen induced a fall in FE_NO during the early asthmatic reaction (EAR) expressed as AUC_0–1 (ANOVA, p=0.04), which was followed by a rise in FE_NO during the late asthmatic reaction (LAR) expressed as AUC_1–48 (ANOVA, p=0.008). In the Dil/P/BK period, FE_NO levels after BK on pre- and post-diluent days were lower than FE_NO levels after placebo (difference 23.5 ppb (95% CI 6.2 to 40.9) and 22.5 ppb (95% CI 7.3 to 37.7), respectively; pNO following allergen challenge in the LAR, BK suppressed FE_NO levels at 48 hours after allergen challenge in the All/P/BK period, lowering the increased FE_NO (difference from placebo 54.3 ppb (95% CI 23.8 to 84.8); p=0.003) to the baseline level on the pre-allergen day (p=0.51). FE_NO levels were lower after l-NMMA than after placebo on pre-allergen (difference 10.85 ppb (95% CI 1.3 to 20.4); p=0.03) and post-allergen (difference 36.2 ppb (95% CI 5.5 to 66.9); p=0.03) days in the All/L/BK and All/P/BK periods, respectively. l-NMMA did not significantly potentiate the pre- and post-allergen reduction in BK induced FE_NO. Conclusions: Bradykinin suppresses the allergen induced increase in exhaled NO in asthma; this is not potentiated by l-NMMA. Bradykinin and l-NMMA may follow a common pathway in reducing increased NO production before and after experimental allergen exposure. Reinforcement of this endogenous protective mechanism should be considered as a therapeutic target in asthma.