Hepatitis C virus polyprotein processing: kinetics and mutagenic analysis of serine proteinase-dependent cleavage

Abstract

Hepatitis C virus (HCV) serine proteinase (Cpro-2) is responsible for the processing of HCV nonstructural (NS) protein processing. To clarify the mechanism of Cpro-2-dependent processing, pulse-chase and mutation analyses were performed by using a transient protein production system in cultured cells. Pulse-chase study revealed the sequential production of HCV-NS proteins. Production of p70(NS3) and p66(NS5B) were rapid. An 89-kDa processing intermediate protein (p89) was observed during the early part of the chase. p89 seemed to be cleaved first into a 31-kDa protein (p31) and a p58/56(NS5A). p31 was further processed into p4(NS4A) and p27(NS4B). Mutation analysis of cleavage sites of NS4A/4B, NS4B/5A, and NS5A/5B revealed that cleavage at each site is essentially independent from cleavage occurring at the other site.