Capsid amino acids at positions 247 and 270 are involved in the virulence of betanodaviruses to European sea bass

European sea bass ( Dicentrarchus labrax ) is severely affected by nervous necrosis disease, caused by nervous necrosis virus (NNV). Two out of the four genotypes of this virus (red-spotted grouper nervous necrosis virus, RGNNV; and striped jack nervous necrosis virus, SJNNV) have been detected in s...

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Bibliographic Details
Published in:Scientific reports 2019-10, Vol.9 (1), p.14068-11, Article 14068
Main Authors: Moreno, Patricia, Souto, Sandra, Leiva-Rebollo, Rocio, Borrego, Juan J., Bandín, Isabel, Alonso, M. Carmen
Format: Article
Language:English
Subjects:
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Amino Acid Substitution - genetics
Amino acids
Animals
Bass
Bass - virology
Capsid protein
Capsid Proteins - genetics
Cell recognition
Fish diseases
Fish Diseases - virology
Genotypes
Humanities and Social Sciences
Immune response
Inflammation
Interferon
multidisciplinary
Mutation
Nodaviridae - genetics
Nodaviridae - pathogenicity
Nodaviridae - physiology
Replication
RNA Virus Infections - veterinary
RNA Virus Infections - virology
Science
Science (multidisciplinary)
Seroconversion
Virulence
Virulence - genetics
Virus Replication
Viruses
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Summary:European sea bass ( Dicentrarchus labrax ) is severely affected by nervous necrosis disease, caused by nervous necrosis virus (NNV). Two out of the four genotypes of this virus (red-spotted grouper nervous necrosis virus, RGNNV; and striped jack nervous necrosis virus, SJNNV) have been detected in sea bass, although showing different levels of virulence to this fish species. Thus, sea bass is highly susceptible to RGNNV, whereas outbreaks caused by SJNNV have not been reported in this fish species. The role of the capsid protein (Cp) amino acids 247 and 270 in the virulence of a RGNNV isolate to sea bass has been evaluated by the generation of recombinant RGNNV viruses harbouring SJNNV-type amino acids in the above mentioned positions (Mut247Dl965, Mut270Dl965 and Mut247 + 270Dl965). Viral in vitro and in vivo replication, virus virulence and fish immune response triggered by these viruses have been analysed. Mutated viruses replicated on E-11 cells, although showing some differences compared to the wild type virus, suggesting that the mutations can affect the viral cell recognition and entry. In vivo , fish mortality caused by mutated viruses was 75% lower, and viral replication in sea bass brain was altered compared to non-mutated virus. Regarding sea bass immune response, mutated viruses triggered a lower induction of IFN I system and inflammatory response-related genes. Furthermore, mutations caused changes in viral serological properties (especially the mutation in amino acid 270), inducing higher seroconversion and changing antigen recognition.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-019-50622-1