Abstract
Viral diseases pose a significant threat to the productivity in aquaculture. Heart- and skeletal muscle inflammation (HSMI) is an emerging disease in Atlantic salmon (Salmo salar) farming. HSMI is associated with Piscine orthoreovirus (PRV) infection, but PRV is ubiquitous in farmed Atlantic salmon and thus present also in apparently healthy individuals. This has brought speculations if additional etiological factors are required, and experiments focusing on the causal relationship between PRV and HSMI are highly warranted. A major bottleneck in PRV research has been the lack of cell lines that allow propagation of the virus. To bypass this, we propagated PRV in salmon, bled the fish at the peak of the infection, and purified virus particles from blood cells. Electron microscopy, western blot and high-throughput sequencing all verified the purity of the viral particles. Purified PRV particles were inoculated into naïve Atlantic salmon. The purified virus replicated in inoculated fish, spread to naïve cohabitants, and induced histopathological changes consistent with HSMI. PRV specific staining was demonstrated in the pathological lesions. A dose-dependent response was observed; a high dose of virus gave earlier peak of the viral load and development of histopathological changes compared to a lower dose, but no difference in the severity of the disease. The experiment demonstrated that PRV can be purified from blood cells, and that PRV is the etiological agent of HSMI in Atlantic salmon.
Highlights
Anthropogenic changes in the rearing of animals, such as large-scale fish farming, may increase the risk of new diseases
Blood cell- and plasma samples with the highest viral load collected at 6 and 7 wpc were selected for Piscine orthoreovirus (PRV) purification (Fig 1)
This report shows that purified PRV particles induce heart and skeletal muscle inflammation (HSMI) in Atlantic salmon
Summary
Anthropogenic changes in the rearing of animals, such as large-scale fish farming, may increase the risk of new diseases. A virus called PRV-2 was demonstrated to be the possible causative agent of erythrocytic inclusion body syndrome (EIBS), a disease that can cause mass mortality in Coho salmon (Oncorhynchus kisutch) [19] Another PRV-like virus was detected in association with a disease outbreak in rainbow trout (Oncorhynchus mykiss) in Norway; the fish displayed signs of circulatory disturbance and histopathological changes resembling HSMI [20]. To bypass the lacking possibility to multiply PRV by cell culture propagation, we purified PRV particles directly from infected salmon blood cells, and used the pure virus as inoculum in an experimental challenge trial to prove the causal relationship to HSMI
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