4.2 Article

Investigation of laboratory methods for characterization of aquatic viruses in fish infected experimentally with infectious salmon anemia virus

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Publisher

SAGE PUBLICATIONS INC
DOI: 10.1177/10406387231173332

Keywords

Atlantic salmon; histopathology; infectious salmon anemia virus; metagenomics; virus discovery

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Rapid growth in aquaculture has led to the emergence of diseases in high-density production systems. Detection and surveillance methods for infectious diseases are crucial for rapid identification and response. A proof-of-concept approach for virus detection using infectious salmon anemia virus (ISAV) as the archetype pathogen was implemented, integrating histopathology, virus isolation, whole-genome sequencing, electron microscopy, in situ hybridization, and reverse transcription real-time PCR.
Rapid growth in aquaculture has resulted in high-density production systems in ecologically and geographically novel conditions in which the emergence of diseases is inevitable. Well-characterized methods for detection and surveillance of infectious diseases are vital for rapid identification, response, and recovery to protect economic and food security. We implemented a proof-of-concept approach for virus detection using a known high-consequence fish pathogen, infectious salmon anemia virus (ISAV), as the archetypal pathogen. In fish infected with ISAV, we integrated histopathology, virus isolation, whole-genome sequencing (WGS), electron microscopy (EM), in situ hybridization (ISH), and reverse transcription real-time PCR (RT-rtPCR). Fresh-frozen and formalin-fixed tissues were collected from virus-infected, control, and sham-infected Atlantic salmon (Salmo salar). Microscopic differences were not evident between uninfected and infected fish. Viral cytopathic effect was observed in cell cultures inoculated with fresh-frozen tissue homogenates from 3 of 3 ISAV-infected and 0 of 4 uninfected or sham-infected fish. The ISAV genome was detected by shotgun metagenomics in RNA extracted from the medium from 3 of 3 inoculated cell cultures, 3 of 3 infected fish, and 0 of 4 uninfected or sham-infected fish, yielding sufficient coverage for de novo assembly. An ISH probe against ISAV revealed ISAV genome in multiple organs, with abundance in renal hematopoietic tissue. Virus was detected by RT-rtPCR in gill, heart, kidney, liver, and spleen. EM and metagenomic WGS from tissues were challenging and unsuccessful. Our proof-of-concept methodology has promise for detection and characterization of unknown aquatic pathogens and also highlights some associated methodology challenges that require additional investigation.

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