Abstract
BackgroundAccumulation of activated eosinophils in tissue is a hallmark of allergic inflammation. The endocannabinoid 2‐arachidonoylglycerol (2‐AG) has been proposed to elicit eosinophil migration in a CB 2 receptor/Gi/o‐dependent manner. However, it has been claimed recently that this process may also involve other mechanisms such as cytokine priming and the metabolism of 2‐AG into eicosanoids. Here, we explored the direct contribution of specific CB 2 receptor activation to human and mouse eosinophil effector function in vitro and in vivo.Methods In vitro studies including CB 2 expression, adhesion and migratory responsiveness, respiratory burst, degranulation, and calcium mobilization were conducted in human peripheral blood eosinophils and mouse bone marrow‐derived eosinophils. Allergic airway inflammation was assessed in mouse models of acute OVA‐induced asthma and directed eosinophil migration.Results CB 2 expression was significantly higher in eosinophils from symptomatic allergic donors. The selective CB 2 receptor agonist JWH‐133 induced a moderate migratory response in eosinophils. However, short‐term exposure to JWH‐133 potently enhanced chemoattractant‐induced eosinophil shape change, chemotaxis, CD11b surface expression, and adhesion as well as production of reactive oxygen species. Receptor specificity of the observed effects was confirmed in eosinophils from CB 2 knockout mice and by using the selective CB 2 antagonist SR144528. Of note, systemic application of JWH‐133 clearly primed eosinophil‐directed migration in vivo and aggravated both AHR and eosinophil influx into the airways in a CB 2‐specific manner. This effect was completely absent in eosinophil‐deficient ∆dblGATA mice.ConclusionOur data indicate that CB 2 may directly contribute to the pathogenesis of eosinophil‐driven diseases. Moreover, we provide new insights into the molecular mechanisms underlying the CB 2‐mediated priming of eosinophils. Hence, antagonism of CB 2 receptors may represent a novel pharmacological approach for the treatment of allergic inflammation and other eosinophilic disorders.
Highlights
Accumulation of activated eosinophils in tissue is a hallmark of allergic inflammation
CB2 surface expression was confirmed by flow cytometric staining in- and off-season in human peripheral blood eosinophils from allergic volunteers with seasonal respiratory symptoms and healthy subjects
We propose a novel mechanism of CB2-induced priming of eosinophils that may directly contribute to the pathogenesis of eosinophilic diseases
Summary
Accumulation of activated eosinophils in tissue is a hallmark of allergic inflammation. We explored the direct contribution of specific CB2 receptor activation to human and mouse eosinophil effector function in vitro and in vivo. Allergic airway inflammation was assessed in mouse models of acute OVA-induced asthma and directed eosinophil migration. The selective CB2 receptor agonist JWH-133 induced a moderate migratory response in eosinophils. Receptor specificity of the observed effects was confirmed in eosinophils from CB2 knockout mice and by using the selective CB2 antagonist SR144528. Systemic application of JWH-133 clearly primed eosinophil-directed migration in vivo and aggravated both AHR and eosinophil influx into the airways in a CB2specific manner. This effect was completely absent in eosinophil-deficient ΔdblGATA mice. We provide new insights into the molecular mechanisms underlying the CB2-mediated priming of eosinophils
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