Establishment and evaluation of an indirect immunofluorescence assay for the detection of salmonid alphavirus.

Salmonid alphaviruses (SAV) severely infect farmed salmonids and rainbow trout. Owing to the recent increase in fish import trade, several SAV unreported countries, such as China, may face serious threat of this infection. Thus, it is necessary to develop efficient detection methods for the prevention and diagnosis of SAV infection. In this study, we selected a conserved segment of the SAV E1 protein as a target immunogen for the preparation of monoclonal antibodies (mAbs) specific to SAV. A sensitive indirect immunofluorescence (IF) method was developed using 26E9C2 mAb that detected E1 protein and identified subtypes 1, 2 and 5 of SAV. Thus, this assay provides a sensitive and specific detection method, and an improved technical support for the clinical diagnosis and epidemiological study of SAV. SIGNIFICANCE AND IMPACT OF THE STUDY: In this study, we successfully prepared two monoclonal antibodies (mAbs) against three subtypes of salmonid alphavirus (SAV), and established an indirect immunofluorescence assay that can be used to diagnose and prevent SAV from entering SAV unreported countries, such as China, through international trade. The application of this method will contribute to controlling SAV infection and reducing economic losses.

Virulence and serological studies of recombinant infectious hematopoietic necrosis virus (IHNV) in rainbow trout.

Infectious hematopoietic necrosis virus is a highly contagious disease of juvenile salmonid species. From the IHNV HLJ-09 isolated in China, two recombinant viruses were generated by reverse genetics using the RNA polymerase II transcription system. The recombinant viruses were confirmed by RT-PCR, indirect immunofluorescence assay and electron microscopy. They were referred to as rIHNV HLJ-09 and rIHNV-EGFP. rIHNV HLJ-09 and rIHNV-EGFP could stably replicate in EPC cell lines and had the same cellular tropism as wtIHNV HLJ-09. But the titer of rIHNV-EGFP was significantly lower than rIHNV HLJ-09 and wtIHNV HLJ-09. rIHNV-EGFP strain could express EGFP stably at least in 20 passages, and the fluorescence could be observed clearly. To assess the virulence and pathogenicity of the recombinant viruses in vivo, juvenile rainbow trout were challenged by intraperitoneal injection with 20µl of rIHNV HLJ-09, rIHNV-EGFP or wtIHNV HLJ-09 (1×10(6)pfuml(-1)). Fish challenged with rIHNV HLJ-09 and wtIHNV HLJ-09 exhibited clinical signs typical of IHN disease and both produced 90% cumulative percent mortality, whlie rIHNV-EGFP produced only 5%. Pathological sectioning results showed that the tissues (liver, kidney, heart muscle, back muscle) of the fish infected with rIHNV HLJ-09 exhibited pathological changes, with the exception of cerebral neurons and the cheek. However, no lesions of liver, kidney, heart, muscle, brain in rainbow trout of rIHNV-EGFP or the control group were observed. Indirect ELISA results showed that a high level of serum antibody was detected in the experimental fish challenged with rIHNV HLJ-09, just as the same as wtIHNV HLJ-09, while a lower titer was detecred in the fish infected with rIHNV-EGFP. This indicated that the recombinant viruses could induce humoral immune response in the experimental fish. The recombinant viruses had unique genetic tags and could be used for genetic engineering, laying new ground for further investigation of IHNV pathopoiesis molecular mechanism, host tropism and the development of novel vaccines against IHN.