MODULATION OF HEPATITIS C VIRUS NS3 PROTEASE AND HELICASE ACTIVITIES THROUGH THE INTERACTION WITH NS4A

The hepatitis C virus nonstructural 3 protein (NS3) possesses a serine protease activity in the N-terminal one-third, whereas RNA-stimulated NTPase and helicase activities reside in the C-terminal portion. The serine protease activity is required for proteolytic processing at the NS3−NS4A, NS4A−NS4B, NS4B−NS5A, and NS5A−NS5B polyprotein cleavage sites. NS3 forms a complex with NS4A, a 54-residue polypeptide that was shown to act as an essential cofactor of the NS3 protease. We have expressed in Escherichia coli the NS3−NS4A precursor; cleavage at the junction between NS3 and NS4A occurs during expression in the bacteria cells, resulting in the formation of a soluble noncovalent complex with a sub-nanomolar dissociation constant. We have assessed the minimal ionic strength and detergent and glycerol concentrations required for maximal proteolytic activity and stability of the purified NS3−NS4A complex. Using a peptide substrate derived from the NS5A−NS5B junction, the catalytic efficiency (kcat/Km) of NS3−...