Antiviral functions of IFNd against ISKNV and interaction analysis of IFNd and its receptors in spotted seabass (Lateolabrax maculatus).

Abstract

Type I interferons (IFNs) play a significant role in antiviral innate immunity. But, the antiviral function of IFNd is controversial in teleosts. Here, we identified three IFNd receptors belonging to cytokine receptor family B (LmCRFB1, LmCRFB2, and LmCRFB5) in spotted seabass (Lateolabrax maculatus). LmIFNd and its receptors were highly expressed in gill, spleen and head kidney tissues. Additionally, LmIFNd, its receptors, and their downstream signal genes (LmTYK2, LmJAK1, LmSTAT1, and LmSTAT2) were induced by infectious spleen and kidney necrosis virus (ISKNV) infection. Injection of recombinant protein (LmIFNd-His) in vivo and incubation with the LmIFNd-His in vitro both induced expressions of IFN-stimulated genes (LmISGs). IFNd-His had a dose-dependent protective effect on the activity of brain cells infected by ISKNV and reduced the number of ISNKV copies. LmIFNd-His also bound to extracellular domains of the three receptors in vitro in the pull-down assay. LmIFNd-His preferentially induced ISG expression through receptor complex LmCRFB1 and LmCRFB5, followed by LmCRFB2 and LmCRFB5, to induce the expressions of LmISGs. Our results show that LmIFNd can enhance the antiviral immune response of spotted seabass, and it uses receptor complex LmCRFB1 and LmCRFB5 as well as LmCRFB2 and LmCRFB5 to induce LmISG expression. It is the first study about the antiviral function of LmIFNd and its receptor complex in spotted seabass, and it provides a reference for further studies of the controversial anti-viral function of IFNd in teleosts.