The non-structural protein μNS of piscine orthoreovirus (PRV) forms viral factory-like structures

Hanne Merethe Haatveit,Maria Krudtaa Dahle,Espen Rimstad,Turhan Markussen,Øystein Wessel,Ingvild B Nyman

doi:10.1186/s13567-015-0302-0

Hanne Merethe Haatveit, Maria Krudtaa Dahle + Show 4 more

Open Access

https://doi.org/10.1186/s13567-015-0302-0

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Abstract

Piscine orthoreovirus (PRV) is associated with heart- and skeletal muscle inflammation in farmed Atlantic salmon. The virus is ubiquitous and found in both farmed and wild salmonid fish. It belongs to the family Reoviridae, closely related to the genus Orthoreovirus. The PRV genome comprises ten double-stranded RNA segments encoding at least eight structural and two non-structural proteins. Erythrocytes are the major target cells for PRV. Infected erythrocytes contain globular inclusions resembling viral factories; the putative site of viral replication. For the mammalian reovirus (MRV), the non-structural protein μNS is the primary organizer in factory formation. The analogous PRV protein was the focus of the present study. The subcellular location of PRV μNS and its co-localization with the PRV σNS, µ2 and λ1 proteins was investigated. We demonstrated that PRV μNS forms dense globular cytoplasmic inclusions in transfected fish cells, resembling the viral factories of MRV. In co-transfection experiments with μNS, the σNS, μ2 and λ1 proteins were recruited to the globular structures. The ability of μNS to recruit other PRV proteins into globular inclusions indicates that it is the main viral protein involved in viral factory formation and pivotal in early steps of viral assembly.

Highlights

Piscine orthoreovirus (PRV) is a member of the family Reoviridae
PRV differs from other orthoreoviruses like mammalian reoviruses (MRVs) and avian reoviruses (ARVs) in the ability to infect salmonid fish species at low temperatures, and in the preference for erythrocytes as one of the main target cells
Prediction of secondary structure The predicted secondary structure profiles of PRV and MRV μNS were similar despite low sequence identity (Figure 2)

Summary

Introduction

The virus is associated with heart and skeletal muscle inflammation (HSMI), an important emerging disease in the intensive farming of Atlantic salmon (Salmo salar) [1, 2]. PRV differs from other orthoreoviruses like mammalian reoviruses (MRVs) and avian reoviruses (ARVs) in the ability to infect salmonid fish species at low temperatures, and in the preference for erythrocytes as one of the main target cells. Based upon sequence homology to MRV, and the presence of conserved structures and motifs, eight of the deduced translation products are assumed structural components forming the orthoreovirus particle with an Haatveit et al Vet Res (2016) 47:5 inner core and an outer capsid, while two of the translation products are non-structural proteins [8, 12]

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