dc.description.abstract | Infectious salmon anemia virus (ISAV) is a piscine orthomyxovirus, which causes multisystemic disease
in farmed Atlantic salmon that may result in large losses. Previous work has suggested that ISAV is able to
resist the antiviral state induced in cells by type I interferon (IFN). These studies were, however, mainly
based on cytopathic effect (CPE) reduction assays. Here we have investigated the antiviral activity of
Atlantic salmon IFNa1, IFNb and IFNc against ISAV using quantitative PCR (qPCR) of segment 6, Western
blot analysis ofISAVproteins and viral yield reductionassays,inadditiontoCPE reductionassays.Antiviral
effects of IFNs were tested against the high virulent strain ISAV4 and the low virulent strain ISAV7 both at
the optimum growth temperature 15 ◦C and at 20 ◦C. As expected, IFNa1 showed little protection against
CPE development in cells after infection with both strains at 15 ◦C. However, the qPCR and Western blot
analysis clearly showed strong inhibition of replication of the virus strains by IFNa1 between 24 and 72 h
after infection. The inhibitory effect declined four to five days post-infection, which explains the low
protection against CPE development 7–10 days later. At 20 ◦C, IFNa1 showed strong protection against
CPE development, probably due to slower virus growth. IFNc showed similar antiviral activity as IFNa1
against ISAV4 while IFNb showed lower activity. There were observed differences between ISAV4 and
ISAV7 both with respect inhibition by IFNa1 and ability to induce the two IFN-inducible antiviral effector
proteins, Mx and ISG15, which may be related to differences in virulence properties and/or adaption to
growth in cell culture. | en_US |