Specific inhibitors of hepatitis C virus (HCV) replication that target the NS3/4A protease (e.g., VX-950) or the NS5B polymerase (e.g., R1479/R1626, PSI-6130/R7128, NM107/NM283, and HCV-796) have advanced into clinical development. Treatment of patients with VX-950 or HCV-796 rapidly selected for drug-resistant variants after a 14-day monotherapy treatment period. However, no viral resistance was identified after monotherapy with R1626 (prodrug of R1479) or NM283 (prodrug of NM107) after 14 days of monotherapy. Based upon the rapid selection of resistance to the protease and nonnucleoside inhibitors during clinical trials and the lack of selection of resistance to the nucleoside inhibitors, we used the replicon system to determine whether nucleoside inhibitors demonstrate a higher genetic barrier to resistance than protease and nonnucleoside inhibitors. Treatment of replicon cells with nucleoside inhibitors at 10 and 15 times the 50% effective concentration resulted in clearance of the replicon, while treatment with a nonnucleoside or protease inhibitor selected resistant colonies. In combination, the presence of a nucleoside inhibitor reduced the frequency of colonies resistant to the other classes of inhibitors. These results indicate that the HCV replicon presents a higher barrier to the selection of resistance to nucleoside inhibitors than to nonnucleoside or protease inhibitors. Furthermore, the combination of a nonnucleoside or protease inhibitor with a nucleoside polymerase inhibitor could have a clear clinical benefit through the delay of resistance emergence.Hepatitis C virus (HCV) is a positive-strand RNA virus that is a member of the Hepacivirus genus within the Flaviridae family. There are an estimated 170 million individuals chronically infected with HCV worldwide, which amounts to almost 3% of the global population (1). In the United States, an estimated 20,000 new HCV infections occurred in 2005, adding to the approximately 4 million individuals previously infected with HCV (2, 38). Liver cirrhosis, as a result of HCV infection, is currently the leading reason justifying liver transplantation; however, reinfection occurs immediately posttransplantation and can result in graft loss (39).The current treatment of pegylated alpha interferon in combination with ribavirin results in a sustained viral response in approximately 50% of HCV patients infected with genotype (GT) 1 virus, the most prevalent GT worldwide. Therefore, a specific HCV antiviral therapy is highly desirable. Viral proteases and viral polymerases have been validated as clinically effective targets for a number of different viruses, including human immunodeficiency virus, hepatitis B virus, and herpesviruses (6,7,14,15). Two potential drug targets encoded by HCV are the NS3/4A serine protease and the NS5B RNA-dependent RNA polymerase (5). Several anti-HCV compounds that inhibit the activity of either the NS3/4A protease or the NS5B RNA-dependent RNA polymerase have resulted in decreased viral loads when administered to HCV-infected pat...
