Overexpression of PGE2 synthase by in vivo transient expression enhances immunocompetency along with fitness cost in a lepidopteran insect.

Prostaglandins (PGs) mediate various physiological functions in insects. Specifically, PGE2 is known to mediate immunity and egg-laying behavior in the beet armyworm, Spodoptera exigua A PGE2 synthase 2 (Se-PGES2) has been identified to catalyze the final step to produce PGE2 in S. exigua Its expression is inducible in response to immune challenge. Inhibition of the gene expression results in immunosuppression. In contrast, any physiological alteration induced by its uncontrolled overexpression was not recognized in insects. This study used the in vivo transient expression (IVTE) technique to induce overexpression and assessed subsequent physiological alteration in S. exigua Se-PGES2 was cloned into a eukaryotic expression vector and transfected to Sf9 cells to monitor its heterologous expression. The Sf9 cells expressed the recombinant Se-PGES2 (rSe-PGES2) at an expected size (∼47 kDa), which was localized in the cytoplasm. The recombinant expression vector was then used to transfect larvae of S. exigua Hemocytes collected from the larvae treated with IVTE expressed the rSe-PGES2 gene for at least 48 h. The larvae treated with IVTE exhibited an enhanced competency in cellular immune response measured by hemocyte nodule formation. In addition, IVTE treatment of Se-PGES2 induced gene expression of antimicrobial peptides without any immune challenge. The larvae treated with IVTE became significantly resistant to infection of an entomopathogenic nematode, Steinernema monticolum, or to infection to its symbiotic bacterium, Xenorhabdus hominickii However, IVTE-treated S. exigua larvae suffered from reduced pupal size and fecundity.