Dopamine receptor (DAR) and dopa decarboxylase (DDC) mediate hepatopancreas antibacterial innate immune reactions in Procambarus clarkii

Abstract

Dopa is decarboxylated by dopa decarboxylase (DDC) to form dopamine, which is a significant signaling molecule in the neuroendocrine system. The dopamine receptor (DAR) is an important transmembrane receptor responsible for receiving extracellular signals in the DAR-mediated signaling pathway. In the present study, the expression patterns of Pc-dar were investigated after bacterial challenge. The obviously changed expression patterns showed Pc-dar was related to the antibacterial innate immunity. Endogenous Pc-DDC enzymatic activities were obviously downregulated after Pc-ddc dsRNA injection. The expression level of Pc-dar mRNA was obviously upregulated after bacterial injection when the expression level of Pc-ddc was knocked down. In addition, the upregulation trend of endogenous Pc-DDC enzymatic activities was obviously restrained after bacterial stimulation when Pc-ddc was knocked down. Finally, melanization was downregulated in crayfish hemolymph compared with the dsGFP injection group. In the RNAi assay, the results of qRT-PCR showed that Toll (TLRs) signaling pathway-related genes were activated in the early stages of bacterial stimulation when Pc-ddc was knocked down. Four tested ROS-related antioxidant enzyme genes were significantly upregulated after bacterial challenge compared with the dsGFP injection group. The above results indicated that Pc-DDC and Pc-DAR play important mediating roles in the neuroendocrine immune (NEI) system of crayfish.