Enhanced airway reactivity and inflammation in A2A adenosine receptor-deficient allergic mice

A(2A) adenosine receptor ( A(2A)AR) has potent anti- inflammatory properties, which may be important in the regulation of airway reactivity and inflammation. Inflammatory cells that possess A(2A)AR also produce nitrosative stress, which is associated with pathophysiology of asthma, so we hypothesized that A(2A)AR deficiency may lead to increased airway reactivity and inflammation through nitrosative stress. Thus the present study was carried out to investigate the role of A2AAR on airway reactivity, inflammation, NF-kappa B signaling, and nitrosative stress in A2AAR knockout ( KO) and wild- type ( WT) mice using our murine model of asthma. Animals were sensitized intraperitoneally on days 1 and 6 with 200 mu g of ragweed, followed by aerosolized challenges with 0.5% ragweed on days 11, 12, and 13, twice a day. On day 14, airway reactivity to methacholine was assessed as enhanced pause ( Penh) using whole body plethysmography followed by bronchoalveolar lavage ( BAL) and lung collection for various analyses. Allergen challenge caused a significant decrease in expression of A(2A)AR in A(2A) WT sensitized mice, with A(2A)AR expression being undetected in A(2A) KO sensitized group leading to decreased lung cAMP levels in both groups. A(2A)AR deletion/ downregulation led to an increase in Penh to methacholine and influx of total cells, eosinophils, lymphocytes, and neutrophils in BAL with highest values in A(2A)KO sensitized group. A(2A) KO sensitized group further had increased NF-kappa B expression and nitrosative stress compared with WT sensitized group. These data suggest that A(2A)AR deficiency leads to airway inflammation and airway hyperresponsiveness, possibly via involvement of nitrosative stress in this model of asthma.