Construction of the dual-functional RNA ligand against HCV NS3 protease and helicase.

Abstract

Non-structural protein 3 (NS3) of hepatitis C virus (HCV) contains two distinct activities, protease and helicase which are essential for the HCV replication. In the previous study, we succeeded to obtain RNA aptamers, G9-I, G9-II and G9-III specific for the NS3 protease domain (delta NS3) by in vitro selection (1). As the result of mutational analysis in G9-I, we could obtain the minimum length of RNA structure, delta NEO-III maintaining the full inhibitional activity as shown in G9-I. Furthermore, we created a bi-functional novel RNA ligand, NEO-III-14U which was constructed by connecting delta NEO-III with (U)14 at the 3' terminal. NEO-III-14U was able to inhibit the unwinding of duplex DNA catalyzed by the Full-NS3 helicase activity as well as the protease activity in vitro. Consequently, we could obtain the dual-functional RNA ligand which could inhibit both NS3 protease and helicase activities essential for the HCV proliferation.