Probing the substrate specificity of hepatitis C virus NS3 serine protease by using synthetic peptides.

AUTOR(ES)

Zhang, R

RESUMO

We probed the substrate specificity of a recombinant noncovalent complex of the full-length hepatitis C virus (HCV) NS3 serine protease and NS4A cofactor, using a series of small synthetic peptides derived from the three trans-cleavage sites of the HCV nonstructural protein sequence. We observed a distinct cleavage site preference exhibited by the enzyme complex. The values of the turnover number (k(cat)) for the most efficient NS4A/4B, 4B/5A, and 5A/5B peptide substrates were 1.6, 11, and 8 min(-1), respectively, and the values for the corresponding Michaelis-Menten constants (Km) were 280, 160, and 16 microM, providing catalytic efficiency values (k(cat)/Km) of 92, 1,130, and 8,300 M(-1) s(-1). An alanine-scanning study for an NS5A/5B substrate (P6P4') revealed that P1 Cys and P3 Val were critical. Finally, substitutions at the scissile P1 Cys residue by homocysteine (Hcy), S-methylcysteine (Mcy), Ala, S-ethylcysteine (Ecy), Thr, Met, D-Cys, Ser, and penicillamine (Pen) produced progressively less efficient substrates, revealing a stringent stereochemical requirement for a Cys residue at this position.

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