Abstract
RNA interference (RNAi) is a significant posttranscriptional gene silencing mechanism and can function as an antiviral immunity in eukaryotes. However, numerous viruses can evade this antiviral RNAi by encoding viral suppressors of RNA silencing (VSRs). Classical swine fever virus (CSFV), belonging to the genus Pestivirus, is the cause of classical swine fever (CSF), which has an enormous impact on animal health and the pig industry. Notably, little is known about how Pestivirus blocks RNAi in their host. In this paper, we uncovered that CSFV NS4A protein can antagonize RNAi efficiently in mammalian cells by binding to double-stranded RNA and small interfering RNA. In addition, the VSR activity of CSFV NS4A was conserved among Pestivirus. Furthermore, the replication of VSR-deficient CSFV was attenuated but could be restored by the deficiency of RNAi in mammalian cells. In conclusion, our studies uncovered that CSFV NS4A is a novel VSR that suppresses RNAi in mammalian cells and shed new light on knowledge about CSFV and other Pestivirus. IMPORTANCE It is well known that RNAi is an important posttranscriptional gene silencing mechanism that is also involved in the antiviral response in mammalian cells. While numerous viruses have evolved to block this antiviral immunity by encoding VSRs. Our data demonstrated that the NS4A protein of CSFV exhibited a potent VSR activity through binding to dsRNA and siRNA in the context of CSFV infection in mammalian cells, which are a conservative feature among Pestivirus. In addition, the replication of VSR-deficient CSFV was attenuated but could be restored by the deficiency of RNAi, providing a theoretical basis for the development of other important attenuated Pestivirus vaccines.