Identification and characterization of a histone binding site of the non-structural protein 3 of hepatitis C virus.

摘要

BACKGROUND: Chronic hepatitis resulting from the hepatitis C virus (HCV) infection leads to cirrhosis in at least half the infected patients and increases the risk of hepatocellular carcinoma. There are indications that this pathogenic effect may result from the disturbance of intracellular signal cascades caused by the interaction with viral antigens. Although a great amount of data has been accumulated about functional regions in HCV proteins, relatively little is known about their intracellular targets. Previously, we have demonstrated that the full-length non-structural protein 3 of HCV (NS3) (Borowski P, Heiland M, Feucht H, Laufs R. Characterisation of non-structural protein 3 of hepatitis C virus as modulator of protein phosphorylation mediated by PKA and PKC. Evidences for action on the level of substrate and enzyme. Arch Virol 1999a; 144) and its NH2- and COOH-terminal truncated form (Borowski P, Heiland M, Oehlmann K, Becker B, Kornetzky L, Feucht HH, Laufs R. Non-structural protein 3 of hepatitis C virus inhibits phosphorylation mediated by cAMP-dependent protein kinase. Eur J Biochem 1996;237:611-618) associate to stable complexes with core histones H2B and H4. The changes of the properties of histones as substrate for cAMP-dependent protein kinase (PKA) and protein kinase C (PKC) were found as a direct consequence of the interaction. OBJECTIVE: In the present study we further these observations, localize the histone binding domain of NS3 and investigate the mechanisms by which NS3 affects the functions of the histones in vitro. STUDY DESIGN: HCV protein exhibiting the mentioned histone binding activity was produced in a bacterial expression system, purified and binding to histones was biochemically characterized. The region of NS3 involved in the interaction with histones was defined by proteolytic fragmentation, microsequencing and a specific histone binding assay. Furthermore, a functional test to quantify the interaction of histones with DNA was established and the binding of DNA to histone as a function of NS3 concentration was analysed by means of graphical methods. RESULTS: The investigated fragment of HCV polyprotein consisting of amino acid residues 1189-1525 (HCV-polyprotein-(1189-1525)) displayed significant histone binding activity. The binding occurred at a molar ratio 1:1 of histone to HCV-polyprotein-(1189-1525) and was mediated by a linear stretch of amino acids located between the residues 1343 and 1379 of the HCV polyprotein. To demonstrate that HCV-polyprotein-(1189-1525) affects the binding of DNA to histones we used two independent methods: overlay assay and binding assay on Sepharose beads. Graphic analysis of the binding kinetics revealed an uncompetitive type of inhibition. CONCLUSIONS: Our results provide the first evidence that NS3 binds and affects the functions of core histones. The mechanism by which the NS3 interferes with the histone functions involves conformational changes of histone molecule.