In vivo virulence and genomic comparison of infectious Salmon Anaemia Virus isolates from Atlantic Canada

The infectious salmon anaemia virus (ISAV) is capable of causing a significant disease in Atlantic salmon, which has resulted in considerable financial losses for salmon farmers around the world. Since the first detection of ISAV in Canada in 1996, it has been a high priority for aquatic animal health management and surveillance programmes have led to the identification of many genetically distinct ISAV isolates of variable virulence. In this study, we evaluated the virulence of three ISAV isolates detected in Atlantic Canada in 2012 by doing in vivo‐controlled disease challenges with two sources of Atlantic salmon. We measured viral loads in fish tissues during the course of infection. Sequences of the full viral RNA genomes of these three ISAV isolates were obtained and compared to a high‐virulence and previously characterized isolate detected in the Bay of Fundy in 2004, as well as a newly identified ISAV NA‐HPR0 isolate. All three ISAV isolates studied were shown to be of low to mid‐virulence with fish from source A having a lower mortality rate than fish from source B. Viral load estimation using an RT‐qPCR assay targeting viral segment 8 showed a high degree of similarity between tissues. Through genomic comparison, we identified various amino acid substitutions unique to some isolates, including a stop codon in the segment 8 ORF2 not previously reported in ISAV, present in the isolate with the lowest observed virulence.