Construction and In Vitro and In Vivo Analysis of Coxsackievirus B4 Reporter Viruses: Attenuated Virulence but Highly Efficient for Antiviral Drug Screening and Evaluation

Abstract

Coxsackievirus B4 (CVB4) is an enterovirus with one of the highest mortality rates following infection, yet research on it remains limited. To enhance the efficiency of CVB4 research, we developed the rCVB4-EGFP and rCVB4-NanoLuc reporter viruses. The replication kinetics of these reporter viruses in SH-SY5Y and HeLa cells were essentially consistent with those of the wild-type CVB4. A strong correlation was observed between the fluorescence and bioluminescence signals of rCVB4-EGFP and rCVB4-NanoLuc and viral titers at specific times postinfection. When evaluating the anti-CVB4 drug fluoxetine using these reporter viruses, the half-maximal effective concentrations derived from fluorescence signals, bioluminescence signal intensities, and viral genome copies were consistent. In In Vivo drug evaluations, because CVB4 can infect various tissues and organs, the bioluminescence signal of rCVB4-NanoLuc effectively demonstrated the antiviral effects of drugs, offering significant advantages over traditional tissue viral titer analysis. The reporter viruses exhibited reduced virulence compared with wild-type CVB4 both In Vitro, in SH-SY5Y and HeLa cells, and In Vivo, in ICR suckling mice. Although this reduced virulence may limit their application for studying pathogenic mechanisms, these reporter viruses can serve as highly efficient tools for high-throughput screening and evaluation of anti-CVB4 drugs, vaccines, and neutralizing antibodies.