Phenotypic Diversity of Infectious Red Sea Bream Iridovirus Isolates from Cultured Fish in Japan

Megalocytivirus is causing economically serious mass mortality by infecting fish in and around the Pacific region of Asia. The recent emergence of many new iridoviruses has drawn attention to the marked taxonomic variation within this virus family. Most studies of these viruses have not included extensive study of these emergent species. We explored the emergence of red sea bream iridovirus (RSIV) on a fish farm in Japan, and we specifically endeavored to quantify genetic and phenotypic differences between RSIV isolates using in vitro and in vivo methods. The three isolates had identical major capsid protein sequences, and they were closely related to Korean RSIV isolates. In vitro studies revealed that the isolates differed in replication rate, which was determined by real-time quantitative PCR of viral genomes in infected cells and cell culture supernatant, and in cell viability, estimated by the MTT (3-4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide) assay for infected cells. In vivo studies showed that the isolates exhibit different virulence characteristics: infected red sea bream showed either acute death or subacute death according to infection with different isolates. Significant differences were seen in the antigenicity of isolates by a formalin-inactivated vaccine test. These results revealed that variant characteristics exist in the same phylogenetic location in emergent iridoviruses. We suggest that this strain variation would expand the host range in iridoviral epidemics.Iridoviruses are designated as icosahedral cytoplasmic DNA viruses; this group of viruses has different hosts, including fish, amphibians, and insects, causing economic and environmental problems. The family Iridoviridae includes five genera: Iridovirus, Chloriridovirus, Ranavirus, Lymphocystivirus, and Megalocytivirus (45). Piscine iridoviruses belong to the genera Ranavirus, Lymphocystivirus, and Megalocytivirus. In recent years, the genotypical variation between newly found iridovirus strains included in the genus Ranavirus has been studied in this viral family (5). However, the properties of and variation between iridovirus species have not been well characterized except for a few iridoviruses isolated from amphibians (11, 46), fish (8, 18, 19), and insects (23, 42, 44). Most studies attempting to differentiate variants have relied on genotypic rather than phenotypic properties.Members of the Megalocytivirus genus produce characteristic basophilic inclusion bodies in the enlarged cells of host fish organs, which have been collected from mass mortalities occurring in wild and cultured fish species (14, 37). Red sea bream (Pagrus major) aquaculture has suffered great losses from the prevalence of red sea bream iridovirus (RSIV) infection in Japan. RSIV has been assigned to the Megalocytivirus genus. The virus was first isolated from cultured red sea bream in western Japan in 1990 (22).Many other piscine iridoviruses have been reported in Asian countries (7, 24, 25) from more than 100 different species (41), including freshwater and marine fish (19). RSIV is closely related genetically to viruses isolated from ornamental fish in Southeast Asia, based on nucleotide sequence studies (21, 39). A formalin-inactivated RSIV vaccine has been used in juvenile marine fish against this disease (31, 32).The incidence of iridovirus infection has been increasing among cultured fish in Japan (29, 30). In addition, genetic and phenotypic iridovirus variants suggest the presence of diverse variants in this virus group (16). In the present study, we examined the detailed properties of three RSIV isolates from two fish species collected from fish farms in western Japan. Using in vitro and in vivo processes, we focused close examination specifically on quantitative genetic and phenotypic differences between the three isolates. The aim of this study was to increase understanding of the epidemiology of RSIV.