PGE(2) induces oenocytoid cell lysis via a G protein-coupled receptor in the beet armyworm, Spodoptera exigua.

Eicosanoids mediate cellular and humoral immune responses in the beet armyworm, Spodoptera exigua, including activation of prophenoloxidase (PPO). PPO activation begins with release of its inactive zymogen, PPO, from oenocytoids in response to prostaglandins (PGs). Based on the biomedical literature, we hypothesized that PGs exert their actions via specific G protein-coupled receptor(s) in S. exigua. This study reports a G protein-coupled receptor (Se-hcPGGPCR1) gene, which is expressed in the hemocytes of S. exigua. The Se-hcPGGPCR1 consists of 420 amino acids and belongs to rhodopsin-type GPCRs. The high content of hydrophobic amino acid residues within the Se-hcPGGPCR1 protein is explained by prediction of seven-transmembrane domains that are characteristic of these GPCRs. Except for the eggs, Se-hcPGGPCR1 was expressed in all life stages. During the larval stage, it was expressed in hemocytes and gut, but not in fat body nor in epidermis. Real time quantitative RT-PCR showed that bacterial challenge induced more than 20-fold increases in its expression level. Fluorescence in situ hybridization showed that Se-hcPGGPCR1 was expressed in a specific hemocyte type, the oenocytoids. A specific eicosanoid, PGE(2), significantly induced oenocytoid lysis and increased PO activity in the plasma. In contrast, when Se-hcPGGPCR1 expression was suppressed by RNA interference (RNAi), the oenocytoid lysis and the PO activation in response to PGE(2) were not elevated above basal levels. A binding assay using intracellular calcium mobilization showed that the RNAi-treated hemocytes were significantly less responsive to PGE(2) than the control hemocytes. These results support our hypothesis with the specific finding that PGE(2) acts through Se-hcPGGPCR1 to activate PPO by lysing oenocytoids.