Surprisingly,
however, the IFNb plasmid only provided a low level of protection despite the fact that it also caused systemic induction of antiviral genes. As the IFN plasmids showed such a large difference in protective effect 8 weeks after injection, we wanted to study if they induced different levels of antiviral proteins in liver and heart, GDC-0449 purchase which are strongly affected by ISAV infection. Immunoblotting of Mx and ISG15 were used for this purpose. As shown in Fig. 5A and B, fish injected with IFNb and IFNc plasmids showed similar strong expression of Mx, free ISG15 or ISG15 conjugates in liver 8 weeks after injection while fish injected with IFNa1 plasmid or control plasmid showed faint or no expression of these proteins. These
data did thus not resolve the difference in protection obtained with the IFNb and IFNc plasmids. However, IFNc plasmid induced a higher level of Mx protein in heart compared to IFNb plasmid although this experiment was conducted 14 days after plasmid injection (Fig. 5C). Mx protein was at similar low levels in heart of fish injected with IFNa1 and control plasmid. The difference in protective effects between IFNb and IFNc plasmids might be due to differences in induction of antiviral proteins in cell types, which are important for ISAV infectivity. Accordingly, we decided to do immunohistochemistry of Mx protein in liver and heart of fish 8 weeks after injection with PBS or IFNa1, IFNb Antidiabetic Compound Library cell line and IFNc plasmids (Fig. 6). Mx-staining was observed throughout isothipendyl the liver tissue from IFNb and IFNc treated fish (Fig. 6C and D) while little Mx-staining was seen in liver of PBS and IFNa1
treated fish (Fig. 6A and B). In the IFNb and IFNc groups, Mx was relatively strongly stained in some cells resembling mammalian Kuppfer cells and more weakly stained in hepatocytes. Interestingly, endothelial cells of blood vessels appeared to be more strongly stained for Mx in liver from fish treated with IFNc plasmid than from fish treated with IFNb plasmid. In heart, stratum compactum and stratum spongiosum was strongly stained in IFNc plasmid treated fish (Fig. 6H), but more weakly stained in fish treated with IFNb plasmid (Fig. 6G). Heart from fish treated with PBS or IFNa1 plasmid showed little or no staining (Fig. 6E and F). Previous work has shown that recombinant IFNa1, IFNb and IFNc protect salmon cells against IPNV and ISAV infection in vitro, IFNa1 and IFNc having similar and stronger antiviral activity than IFNb [8] and [9]. In the present work we have studied in vivo antiviral activity of these IFNs delivered as genes in expression plasmids injected i.m., which demonstrated that IFNb and IFNc plasmids, but not IFNa1 plasmid induced systemic up-regulation of antiviral genes in live Atlantic salmon. Notably, only i.m.