Effect of 15-(s)-Hydroxyeicosatetraenoic Acid on Allergen-induced Asthmatic Responses

Abstract

15-(s)-hydroxyeicosatetraenoic acid (15-HETE), a major oxidative metabolite of arachidonic acid in human lungs, has complex actions on the 5-lipoxygenase pathway in different cell systems. We have examined the effect of inhaled 15-HETE on the early and late asthmatic responses (EAR and LAR) and the associated change in nonspecific bronchial responsiveness to inhaled allergen in 10 subjects with atopic asthma. On 2 separate days 3 wk apart, subjects inhaled either 70 nmol 15-HETE or the diluent (sodium phosphate buffer) in a randomized and double-blind fashion, followed by a dose of allergen that had previously been shown to produce a 25% fall in baseline FEV₁. Analysis of the area under the FEV₁ response time course curves (AUC) in the first hour revealed that preinhalation with 15-HETE increased the EAR by 39% from that achieved after the diluent (p < 0.05). In the seven subjects who were classified as dual responders by developing a LAR previously (> 15% fall in baseline FEV₁ 3 to 8 h after allergen challenge), 15-HETE did not cause any significant change in the magnitude of the LAR when compared with that observed after placebo. The values of the provocation concentration of histamine causing a 20% fall in FEV₁ (Pc₂₀) at 8 h postchallenge were significantly reduced on both study days when compared with the corresponding preallergen challenge values, whether analyzed for the whole group or for the seven dual responders (p < 0.05). 15-HETE had no effect on this allergen-acquired airway hyperresponsiveness to histamine when compared with the diluent. The ability of 15-HETE to augment the early asthmatic response indicates this eicosanoid may affect the responses of mast cell, a pivotal cell in the pathogenesis of the early response to inhaled allergen.