Abstract

Sphingosine-1-phosphate 2 (S1P2 ) receptors have been implicated in degranulation of mast cells. However, functions of S1P2 receptors have not been investigated in an in vivo model of allergic asthma. Using an ovalbumin (OVA)-induced asthma model, the function of S1P2 receptors was evaluated in S1P2 -deficient mice or in mice treated with JTE-013, a selective S1P2 antagonist. Bone marrow-derived dendritic cells (BMDCs) were used to investigate the roles of S1P2 receptors in dendritic cell maturation and migration. Eosinophil accumulation and elevated Th2 cytokine levels in bronchoalveolar lavage fluid and inflamed lung tissues were strongly inhibited by administration of JTE-013 before OVA sensitization, before OVA challenge, and before both events. In S1P2 -deficient mice, allergic responses were significantly lower than in wild-type mice. LPS- and OVA-induced maturation of BMDCs was significantly blunted in dendritic cells from S1P2 -deficient mice and by treatment with JTE-013. Migrations of immature and mature BMDCs were also dependent on S1P2 receptors. It was found that OVA-challenged mice into which in vitro OVA primed BMDCs from S1P2 -deficient mice were adoptively transferred, had less severe asthma responses than OVA-challenged mice into which OVA-primed BMDCs from wild-type mice were adoptively transferred. Pro-allergic functions of S1P2 receptors were elucidated in a murine asthma model. S1P2 receptors were involved not only in maturation and migration of dendritic cells in the sensitization phase but also in mast cell degranulation in the challenge phase. These results suggest S1P2 receptor as a therapeutic target for allergic asthma.

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