PGRP negatively regulates NOD-mediated cytokine production in rainbow trout liver cells

Abstract

Pattern-recognition receptors (PRRs) initiate innate immunity via pathogen recognition. Recent studies suggest that signalling pathways downstream of different PRRs and their crosstalk effectively control immune responses. However, the cross-regulation among PRRs and its effects have yet to be fully described in fish. Here, we examined the crosstalk between OmPGRP-L1, a long form of PGRP in rainbow trout, and other PRRs during pathogenic infections. OmPGRP-L1 expression was increased in RTH-149 cells by iE-DAP and MDP, which are agonists of NOD1 and NOD2, respectively. The silencing of NOD1 and NOD2 specifically inhibited the upregulation of OmPGRP-L1 expression induced by their cognate ligands. Suppression of RIP2 and NF-? B activation prevented the induction of OmPGRP-L1 expression. An in silico analysis and electrophoretic mobility shift assay revealed that the promoter of OmPGRP-L1 has NF-? B binding sites, suggesting that OmPGRP-L1 is produced through the NOD-RIP2-NF-? B signalling pathway. Loss-of-function and gain-of-function experiments indicated that OmPGRP-L1 downregulates the induction of NOD-mediated pro-inflammatory cytokine expression. Mechanistically, secreted OmPGRP-L1 inhibited the activation of the NOD-induced NF-? B pathway via downregulation of TAK1 and I? Bα phosphorylation through A20 expression. Our data demonstrate that OmPGRP-L1 and NODs might play interdependent roles in the inflammatory response to bacterial infections in rainbow trout.