Locked-nucleotide antagonists to varicella zoster virus small non-coding RNA block viral growth and have potential as an anti-viral therapy

Abstract

Herpes zoster (HZ) remains a significant health burden with millions of cases in North America and Europe annually. HZ is frequently followed by long-term pain or post-herpetic neuralgia (PHN). Although effective vaccines for HZ are available, currently used nucleotide analogues often have limited effectiveness against HZ and especially PHN, so there remains a need for additional antiviral therapies for HZ. We recently identified a population of small non-coding RNA (sncRNA) encoded by Varicella Zoster Virus (VZV) and showed that single locked-nucleic acid antagonists (LNAA) to some sncRNA can modulate VZV replication in cell culture. In this work, we explored the antiviral effects of combinations of LNAA oligonucleotides targeting VZVsncRNA. Combinations of LNAA targeting three VZVsncRNA encoded in and near a critical viral regulatory gene were additive, achieving 96 % reduction in virus growth in a cell line. VZV growth was also inhibited by more than 90 % in primary human skin fibroblast cultures by individual and combinations of LNAA to VZVsncRNA. The inhibition by VZVsncRNA was specific and not a consequence of innate immune responses since LNAA to a different VZVsncRNA enhanced VZV growth. Targeted VZVsncRNA lack homologous sequences in the human transcriptome suggesting that LNAA to them would have reduced cytotoxicity if used as therapeutics. These results support further development of oligonucleotides targeting VZVsncRNA as a novel treatment for HZ.