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Abstract
Hepatitis C virus (HCV) has infected millions of people worldwide and has emerged as a global health crisis. The currently available therapy is interferon (IFN) either alone or in combination with ribavirin. However, the disappointing efficacy of IFN has led to the considerable need for improved treatments and a number of new therapies are under evaluation in clinical trials. These include pegylated IFNs, which have altered physiochemical characteristics allowing once-weekly dosing. Combination of pegylated IFN with ribavirin should further improve sustained response rates. However, not all patients are successfully treated with IFNs, particularly those infected with genotype 1 of the virus, and it is likely that potent, specific drugs will be required. The majority of new approaches currently trying to combat this viral disease are aimed at inhibition of viral targets. Most effort has been directed towards inhibition of the NS3 serine protease, and potent inhibitors have now been described. However, a clinical candidate is yet to emerge against this difficult target. Considerable work by leading researchers has provided crystal structures of the key replicative enzymes, NS3 protease, NS3 helicase, NS5B polymerase and full-length NS3 protease-helicase, and there is much hope that such structural information will bear fruit. More recently, inhibition of host targets, particularly inosine monophosphate dehydrogenase (IMPDH), has become of interest and there are on-going clinical trials with such inhibitors. Research aimed at novel treatments for HCV disease is gathering pace and very recent developments in cell-based assay systems can only hasten the discovery of improved therapies.