Protection against lethal vaccinia virus infection in mice using an siRNA targeting the A5R gene

Although the World Health Organization has declared the eradication of smallpox in 1980, the fear of its potential use in bioterrorism has become a reality. Since the effectiveness of current vaccines and antiviral drugs is limited, development of new therapeutic strategies is needed. In this study, we investigated small interfering RNA (siRNA) as a therapeutic approach for preventing and treating smallpox infection.Eight siRNA sequences were designed and evaluated for antiviral activity against vaccinia virus (VACV) in vitro and in vivo.Of eight siRNAs, A5R1 siRNA targeted the A5R gene and reduced VACV replication in cell culture by up to 85% at 100 nM concentration without inducing cytotoxicity. A prolonged prophylactic as well as therapeutic effect of siRNA was observed. In addition, real-time PCR analysis showed that A5R1 siRNA can especially reduce the target mRNA. Finally, intraperitoneal delivery of A5R1 siRNA in Balb/c mice significantly protected these animals from lethal challenge with VACV.This study suggests the potential of A5R1 siRNA as a therapeutic antiviral agent against smallpox.