Comparative effects of Novirhabdovirus genes on modulating constitutive transcription and innate antiviral responses, in different teleost host cell types

• Published in: Virology journal Vol. 17; no. 1; p. 110
• Main Authors: Gorgoglione, Bartolomeo, Ringiesn, Jeffery L, Pham, Loc H, Shepherd, Brian S, Leaman, Douglas W
• Format: Journal Article
• Language: English
• Published: England BioMed Central Ltd 20.07.2020; BioMed Central; BMC
• Subjects: Actin; Animals; Biological response modifiers; Cell culture; Cell Line; Cell lines; Cell Survival; Cloning; Comparative analysis; Deoxyribonucleic acid; Disease; DNA; Epithelial cells; Epithelial Cells - virology; Experiments; Fibroblasts - virology; Fish; Fish Diseases - immunology; Fish Diseases - virology; Fishes; Fishes - classification; Fishes - virology; Gene expression; Genes; Genetic aspects; Genetic engineering; Genetic research; Genetic transcription; Genotypes; Hemorrhage; Hemorrhagic septicemia; Host Microbial Interactions - immunology; Immune response; Immunity, Innate; Immunomodulation; Infection; Infectious hematopoietic necrosis; Infectious hematopoietic necrosis virus - immunology; Innate immunity; Interferon; Interferons - immunology; Interferons - metabolism; Luciferase; Muscle proteins; Novirhabdovirus - genetics; Novirhabdovirus - pathogenicity; Oncorhynchus mykiss; Pathobiology; Pathogens; Plasmids; Proteins; Reagents; RNA polymerase; Salmonid; Septicemia; Transcription; Transcription, Genetic; Transfection; Trout; Vaccination; Vaccines; Viral infections; Viral pathogenesis; Viral Proteins - genetics; Virulence; Virus-host interaction; Viruses; North America; Infectious hematopoietic necrosis virus; Fibroblastic cell; Pathobiology; Transfection; Viral pathogenesis; Salmonid; Epithelial cell; Virus-host interaction; Interferon; Viral hemorrhagic septicemia virus; Cellular transcription
• ISSN: 1743-422X; 1743-422X
• DOI: 10.1186/s12985-020-01372-4

Infectious hematopoietic necrosis virus (IHNV) and viral hemorrhagic septicemia virus (VHSV) are highly contagious, pathogenic Novirhabdoviruses affecting fish and are thusly notifiable diseases with the World Organization for Animal Health. This study assessed the relative capacities of IHNV and VHSV genes to modulate host general transcription and explores the abilities of specific IHNV genes to interfere with the interferon pathway in heterogenous teleost cell-lines. Optimized protocols allowed for efficient transient transfections in EPC, BF-2, RTG-2 and RTgill-W1 cell lines of plasmids encoding IHNV (M genogroup) and VHSV (-IVb genotype) genes, including N, P, M, G and NV. Their impact on general cellular transcription was measured 48 hours post transfection (hpt) with luciferase constructs driven by a modified β-Actin promoter (pCAG). Their modulation of the innate antiviral immune response was characterized 72 hpt, using luciferase constructs measuring rainbow trout Type I IFN or MX-1 promoter augmentation, upon MAVS co-transfection. M was generally confirmed as the strongest constitutive transcriptional suppressor while IHNV P, but not VHSV P, augmented constitutive transcription in fibroblastic cell types. Cell-specific effects were observed for viral G gene, with VHSV G exhibiting suppression of basal transcription in EPC and BF-2 but not in trout cells; while IHNV G was stimulatory in RTG-2, but inhibitory in RTgill-W1. NV consistently stimulated constitutive transcription, with higher augmentation patterns seen in fibroblastic compared to epithelial cells, and for IHNV NV compared to VHSV NV. The innate antiviral immune response, focusing on the IFN pathway, was silenced by IHNV M in all cell lines tested. IHNV N showed a dose-dependent suppression of type I IFN, but with minor effects on MX-1. IHNV P and G played minor IFN-inhibitory roles, consistent and dose-dependent only for G in rainbow trout cells. IHNV NV mediated a consistent stimulatory effect on either Type I IFN or MX-1, but much less pronounced in RTgill-W1. This study extends our understanding of Novirhabdoviruses-host interaction, showing differential innate immune responses in heterogenous cell types. Viral regulators of innate immune signaling are identified, either as dose-dependent suppressors (such as M and N) or stimulators (mainly NV), indicating novel targets for the design of more efficient vaccination strategies.