Abstract

Peptidoglycan recognition proteins (PGRPs) participate in insect defense against bacterial pathogens by recognizing bacterial cell wall peptidoglycans (PGNs). Here, we identified the PGRP-LB gene in the white-backed planthopper Sogatella furcifera (SfPGRP-LB). SfPGRP-LB is a secreted protein with a typical PGN-binding domain and five conserved amino acid (aa) residues required for amidase activity. Expression analysis showed that the SfPGRP-LB transcript levels were significantly higher in the midgut than in other tissues. Silencing SfPGRP-LB with dsRNA significantly downregulated the expression of Toll pathway genes Toll and Dorsal and Imd pathway genes Imd and Relish after Escherichia coli challenge. However, only Toll and Dorsal expressions were downregulated after Staphylococcus aureus challenge. E. coli and S. aureus challenges rapidly and strongly upregulated SfPGRP-LB expression. Recombinantly expressed SfPGRP-LB (rSfPGRP-LB) had strong affinities for E. coli Dap-type PGN and S. aureus Lys-type PGN and agglutinated the bacteria. However, rSfPGRP-LB inhibited S. aureus but not E. coli growth. Furthermore, rSfPGRP-LB had amidase activity, degraded Lys-type PGN, and destroyed S. aureus cell walls but had no such effects on E. coli Dap-type PGN. Thus, SfPGRP-LB recognizes and binds various bacterial PGNs but only has amidase activity against Lys-type PGN.

Highlights

  • The immune system enables insects to adapt to their ambient environment, contend with biotic stress, and resist various microbial pathogens

  • The sequence analysis (Fig. 1) revealed that SfPGRP-LB has all the T7 lysozyme amidase activity sites required for ­Zn2+ binding

  • In Rhynchophorus ferrugineus, Peptidoglycan recognition proteins (PGRPs)-LB is of great significance for the development of new management strategies to destroy intestinal pathogenic bacteria (Dawadi et al 2018)

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Summary

Introduction

The immune system enables insects to adapt to their ambient environment, contend with biotic stress, and resist various microbial pathogens. Studies on completely metamorphic insects revealed that the first step in their immune response is pathogen detection via different pattern recognition receptors. Peptidoglycan recognition proteins (PGRPs) are the major insect pathogen pattern recognition receptors and confer protection against bacterial challenge. PGRPs occur in most insect immune recognition systems. They detect and are induced by the peptidoglycans (PGNs) that are abundant in certain bacterial cell walls. Most PGRPs have a conserved domain that recognizes and binds bacterial cell wall PGNs. According to the size of the transcript and structure of the domains, insect PGRP can be divided into short extracellular PGRP (shortform PGRPs, PGRP-S) and longform PGRP

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