Infection tracing and organ tropism of Siniperca chuatsi rhabdovirus expressing enhanced green fluorescent protein

Abstract

Siniperca chuatsi Rhabdovirus (SCRV) is one of the important pathogens that infect mandarin fish. Recovery of recombinant viruses expressing fluorescent protein is an important method for virology research. In this study, the enhanced green fluorescent protein (EGFP) gene was inserted between the leader and the N gene of the SCRV genome. The recombinant SCRV of rS3-LeNEGFP expressing the EGFP was rescued, and the virus titer was as high as 2 × 106 PFU/mL in EPC cells. The insertion of the EGFP gene in the genome of SCRV was stable. EGFP was expressed efficiently after 10 passages in EPC cells. In vitro growth characterization, pathogenicity and organ tropism in vivo were studied. Compared to the parental rS3, rS3-LeNEGFP was defective in vitro, but not attenuated in vivo. The mortality of red zebrafish caused by rS3-LeNEGFP was the same as the parental SCRV rS3. The earliest expression of EGFP was detectable at 2 h, and clear fluorescence spots appeared at 8 h post-infection in EPC cells. The liver, heart, and brain were the major organ targets of rS3-LeNEGFP in vivo, and the kidney, gill, and spermatocyte were also invaded. The organ infection in vitro was different from that in vivo. This study is of great significance for revealing the pathogenesis of SCRV and developing vaccines and antiviral drugs for SCRV in the future.