Effective inhibition of human cytomegalovirus gene expression by DNA-based external guide sequences

To investigate whether a 12 nucleotide DNA-based miniEGSs can silence the expression of human cytomegalovirus (HCMV) UL49 gene efficiently, A HeLa cell line stably expressing UL49 gene was constructed and the putative miniEGSs (UL49-miniEGSs) were assayed in the stable cell line. Quantitative RT-PCR and western blot results showed a reduction of 67% in UL49 expression level in HeLa cells that were transfected with UL49-miniEGSs. It was significantly different from that of mock and control miniEGSs (TK-miniEGSs) which were 1% and 7%, respectively. To further confirm the gene silence directed by UL49-miniEGSs with human RNase P, a mutant of UL49-miniEGSs was constructed and a modified 5'RACE was carried out. Data showed that the inhibition of UL49 gene expression directed by UL49-miniEGSs was RNase P-dependent and the cleavage of UL49 mRNA by RNase P was site specific. As a result, the length of DNA-based miniEGSs that could silence gene expression efficiently was only 12 nt. That is significantly less than any other oligonucleotide-based method of gene inactivation known so far. MiniEGSs may represent novel gene-targeting agents for the inhibition of viral genes and other human disease related gene expression.