Effective inhibition of herpes simplex virus 1 gene expression and growth by engineered RNase P ribozyme

Abstract

Using an in vitro selection procedure, we have previously isolated ribonuclease P (RNase P) ribozyme variants that efficiently cleave an mRNA sequence in vitro. In this study, an M1GS RNA variant was used to target the mRNA encoding human herpes simplex virus 1 (HSV-1) major transcription activator ICP4. The variant is about 15 times more efficient in cleaving the ICP4 mRNA sequence in vitro than the ribozyme derived from the wild type RNase P ribozyme. Moreover, the variant is also more effective in inhibiting viral ICP4 expression and growth in HSV-1-infected cells than the wild type ribozyme. A reduction of ∼90% in the expression level of ICP4 and a reduction of 4000-fold in viral growth were observed in cells that expressed the variant. In contrast, a reduction of <10% in the ICP4 expression and viral growth was observed in cells that either did not express the ribozyme or produced a catalytically inactive ribozyme mutant. These results provide direct evidence that RNase P ribozyme variants can be highly effective in inhibiting HSV-1 gene expression and growth and furthermore, demonstrate the feasibility of developing highly effective RNase P ribozyme variants for anti-HSV applications by using in vitro selection procedures.