Abstract
The UL29 and UL28 proteins encoded by herpes simplex virus type 1 (HSV-1) are critical for its replication and packaging, respectively. Research has demonstrated that synthesized siRNA molecules targeting the UL29 gene are able to suppress HSV-2 replication and the UL28-null HSV-1 gene cannot form infectious viruses in vitro. Silencing the UL28 and UL29 genes by RNAi might lead to the development of novel antiviral agents for the treatment of HSV-1 infections. Two kinds of short hairpin RNAs (shRNAs) targeting the UL29 and UL28 genes were chemically synthesized and then delivered into cells by a replication-defective human adenovirus type 5 (Adv5) vector. (-) shRNAs targeting none of the genome of HSV-1 were used as the control. Vero cells were inoculated with Ad-UL28shRNA or Ad-UL29shRNA at a multiplicity of infection (MOI) of 100 and challenged 24h later with HSV-1 at an MOI of 0.01 to inhibit HSV-1 replication, as measured by the level of the corresponding RNA and proteins. In addition, the amount of progeny virus was assessed at daily intervals. The antiviral effects of Ad-shRNAs at ongoing HSV-1 infection were explored at 12h after inoculation of the HSV-1. The results showed that the shRNAs delivered by Adv5 significantly suppressed HSV-1 replication in vitro, as determined by the levels of viral RNA transcription, viral protein synthesis, and viral production. The Ad-UL28shRNA and Ad-UL29shRNA suppressed the replication of HSV-1, respectively, compared with the control group (P < 0.001). When Ad-UL28shRNA and Ad-UL29shRNA were combined, a synergistic effect was observed. The antiviral effects could sustain for at least 4days after the HSV-1 infection (P < 0.001). Furthermore, antiviral effects were achieved 12h prior to inoculation of Adv5-shRNAs (P < 0.001). Our data demonstrated comparable antiviral activities against herpes simplex virus by shRNAs targeting either UL29 or UL28 sites in vitro and the effectiveness of using the Adv5 delivery of shRNAs. Therefore, the Adv5 delivery of shRNAs targeting the UL29 and UL28 sites probably may provide an alternative strategy for controlling HSV-1 infection.
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