Masao Arimoto scite author profile

Six cell clones were derived from the SSN-1 cell line, which is composed of a mixed cell population and persistently infected with a C-type retrovirus (SnRV). These clones were susceptible to 4 piscine nodavirus strains belonging to different genotypes (SJNNV, RGNNV, TPNNV and BFNNV [striped jack, redspotted grouper, tiger puffer and barfin flounder nervous necrosis viruses]). Three clones, designated A-6, E-9, and E-11, were highly permissive to nodavirus infection and production. The virus-induced cytopathic effects appeared as cytoplasmic vacuoles and intensive disintegration at 3 to 5 d post-incubation. These observations were highly reproducible and formed the basis for a successful virus titration system. Quantitative analysis using the cloned E-11 cell line clearly revealed differences in the optimal growth temperatures among the 4 genotypic variants: 25 to 30°C for strain SGWak97 (RGNNV), 20 to 25°C for strain SJNag93 (SJNNV), 20°C for strain TPKag93 (TPNNV), and 15 to 20°C for strain JFIwa98 (BFNNV). Electron microscopy demonstrated SnRV retrovirus particles only in A-6 and E-9 cells, but PCR amplification for the pol gene and LTR region of the proviral DNA indicated the presence of the retrovirus in the other clones, including E-11. The cell clones obtained in the present study will be more useful for qualitative and quantitative analyses of piscine nodaviruses than the SSN-1 cell line. KEY WORDS: Nodavirus · Viral nervous necrosis, VNN · SSN-1 cell line · Cell cloning · C-type retrovirus · Snakehead retrovirus Resale or republication not permitted without written consent of the publisherDis Aquat Org 43: [81][82][83][84][85][86][87][88][89] 2000 that a new cell line (GF-1) derived from grouper Epinephelus coioides was useful for the isolation and proliferation of a piscine nodavirus (GNNV, grouper nervous necrosis virus).Piscine nodaviruses can be divided into 4 genotypic groups based on partial sequences of the coat protein gene (Nishizawa et al. 1997): SJNNV (striped jack nervous necrosis virus), RGNNV (redspotted grouper nervous necrosis virus), TPNNV (tiger puffer nervous necrosis virus), and BFNNV (barfin flounder nervous necrosis virus). In a previous study, we demonstrated that the SSN-1 cell line was useful for propagating and differentiating 17 isolates of piscine nodavirus collected from 13 host fish species in 5 countries (Iwamoto et al. 1999). However, one problem with the practical use of the SSN-1 cell line was that this cell line was composed of a mixed population of cells, causing inconsistencies in the cytopathic effects (CPE) observed during virus infection. For this reason, FAT was used to titrate the virus instead of CPE as described in our previous study (Iwamoto et al. 1999). FAT was laborious and costly due to the requirement of special test chambers, and it has proved to be inadequate for the quantitative analysis of a large number of samples. In addition, the fact that the SSN-1 cell line is spontaneously infected by a C-type retrovirus designated as SnRV (Frerich...

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Vaccination trials with Penaeus japonicus to induce resistance to white spot syndrome virus

Namikoshi

et al. 2004

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High permissivity of the fish cell line SSN-1 for piscine nodaviruses

Iwamoto

Mori²,

Arimoto³

et al. 1999

Dis. Aquat. Org.

102

103

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Seventeen isolates of piscine nodavirus from larvae or juveniles of 13 marine fish species affected with viral nervous necrosis (VNN) were examined for their infectivity to a fish cell line SSN-1. Based on cytopathic effects (CPE) and virus antigen detection by fluorescent antibody technique (FAT) after incubation at 25'C, the infectivity of these virus isolates was divided into 4 groups. Group 1, including 9 virus ~solates from 4 species of grouper, 2 species of sea bass, barramundi, rock porgy, and Japanese flounder showed CPE characterized by rounded, granular cells with heavy cytoplasmic vacuoles within 3 d post-incubation (pi.), and the monolayer partially or completely disintegrated over 3 to 6 d p.i. Scattered FAT-positive cells appeared at 3 h p.i. and spread through the cell sheet with an increasing fluorescence signal over 24 h p.i. Group 2, cons~stlng of 3 virus isolates from striped jack, induced CPE with thin or rounded, granular, refractile cells without conspicuous vacuole formation, and extensive FAT-positive reaction was observed in a time course similar to that of Group 1 Cells inoculated with Group 3 (1 isolate from tiger puffer) developed no distinct CPE but viral infection was evidenced by localized FAT-positive cells. There were no FAT-positive cells in Group 4, which included 4 isolates from Japanese flounder, Pacific cod and Atlantic halibut. However, when incubation was performed at 20°C, the SSN-1 cells inoculated with the Group 3 isolate showed CPE similar to that of Group 1 and extensive FAT-positive reaction. Evidence of virus proliferation at 20°C was also obtained in Group 4 isolates. The virus titers in the infected fish varied from 10" to 10" tissue culture infectious dose (TCIDSO) g-' of fish. There is a good correlation between these infectivities to the SSN-1 cells and the coat protein gene genotypes of the isolates. The present results indicate that SSN-1 cells are useful for propagating and differentiating genotypic variants of piscine nodavirus.

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Identification of Host-Specificity Determinants in Betanodaviruses by Using Reassortants between Striped Jack Nervous Necrosis Virus and Sevenband Grouper Nervous Necrosis Virus

Iwamoto¹,

Okinaka

Mise

et al. 2004

J Virol

124

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Betanodaviruses, the causal agents of viral nervous necrosis in marine fish, have bipartite positive-sense RNAs as genomes. The larger genomic segment, RNA1 (3.1 kb), encodes an RNA-dependent RNA polymerase, and the smaller genomic segment, RNA2 (1.4 kb), codes for the coat protein. Betanodaviruses have marked host specificity, although the primary structures of the viral RNAs and encoded proteins are similar among betanodaviruses. However, no mechanism underlying the host specificity has yet been reported. To evaluate viral factors that control host specificity, we first constructed a cDNA-mediated infectious RNA transcription system for sevenband grouper nervous necrosis virus (SGNNV) in addition to that for striped jack nervous necrosis virus (SJNNV), which was previously established by us. We then tested two reassortants between SJNNV and SGNNV for infectivity in the host fish from which they originated. When striped jack and sevenband grouper larvae were bath challenged with the reassortant virus comprising SJNNV RNA1 and SGNNV RNA2, sevenband groupers were killed exclusively, similar to inoculation with SGNNV. Conversely, inoculations with the reassortant virus comprising SGNNV RNA1 and SJNNV RNA2 killed striped jacks but did not affect sevenband groupers. Immunofluorescence microscopic studies using anti-SJNNV polyclonal antibodies revealed that both of the reassortants multiplied in the brains, spinal cords, and retinas of infected fish, similar to infections with parental virus inoculations. These results indicate that viral RNA2 and/or encoded coat protein controls host specificity in SJNNV and SGNNV.

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Masao Arimoto

Properties of a new virus belonging to nodaviridae found in larval striped jack (Pseudocaranx dentex) with nervous necrosis

Cloning of the fish cell line SSN-1 for piscine nodaviruses

Vaccination trials with Penaeus japonicus to induce resistance to white spot syndrome virus

High permissivity of the fish cell line SSN-1 for piscine nodaviruses

Identification of Host-Specificity Determinants in Betanodaviruses by Using Reassortants between Striped Jack Nervous Necrosis Virus and Sevenband Grouper Nervous Necrosis Virus

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