Cotesia plutellae, an endoparasitoid wasp, parasitizes larvae of Plutella xylostella, and disrupt immune response of the host through parasitic factors. These immune disruption factors are maternal (venom proteins, polydnavirus, and ovary proteins) and embryonic (teratocytes) factors. In this study, we performed transcriptome analysis of venom glands of C. plutellae and identified neprilysin-1 (NEP1) known to be potential immunosuppression gene. Cp-NEP1 encoded 451 amino acid and belongs to hymeopteran NEP1 via phylogenetic analysis. Based on the structural comparison Cp-NEP1 lacks in conserved motifs such as substrate binding (NAYY/F), zinc-binding site (HExxH), zinc-binding site, protein folding and maturation (CxxW). To investigate function of Cp-NEP1, we constructed a recombinant Cp-NEP1 harboring N-terminally fused 6X His tag. Peptide sequencing revealed successful expression of the recombinant Cp-NEP1 in Escherichia coli. Pre-heated E. coli as antigen induced spike of nodule formation whereas co-injection of the recombinant Cp-NEP1 and pre-heated E. coli exhibited suppression of nodule formation in the host. Quantitative real-time PCR revealed that expression of phenoloxidase related to nodule formation was suppressed under co-injection of the recombinant Cp-NEP1 and E. coli. These results suggest that Cp-NEP1 contributes to immunosuppression of P. xylostella via phenoloxidase suppression and conserved motifs of neprilysin family are not required for host immune suppression.

• Wook Hyun Cha(Department of Biology, College of Science, Kyungsung University)
• Dae-Weon Lee(Department of Biology, College of Science, Kyungsung University)