Suppression of hepatitis B virus expression and replication by hepatitis C virus core protein in HuH-7 cells.

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J Virol. 1993 October; 67(10): 5823-5832

Suppression of hepatitis B virus expression and replication by hepatitis C virus core protein in HuH-7 cells.

C M Shih, S J Lo, T Miyamura, S Y Chen and Y H Lee

Institute of Biochemistry, National Yang-Ming Medical College, Taipei, Taiwan, Republic of China.

ABSTRACT

Hepatitis B and C viruses (HBV and HCV, respectively) are associatedwith acute and chronic liver diseases and hepatocellular carcinoma.To elucidate the molecular status of superinfection with thesetwo hepatitis viruses, we cotransfected the full-length or truncatedversion of HCV structural genes (core and envelope 1) togetherwith the cloned HBV DNA into a human hepatoma cell line (HuH-7).Expression of HBV-specific major transcripts (3.5 and 2.1 kb),as well as HBV antigens (hepatitis B surface antigen and hepatitisB e and core antigens), was reduced about two- to fourfold bythe presence of the HCV structural genes. In addition, the secretionof HBV viral particles, including the viral nucleocapsid andmature virion, was drastically suppressed about 20-fold. Analysisof the intracellular HBV core protein-associated nucleic acidindicated that the encapsidated HBV pregenomic RNA was similarlyreduced about 14-fold. Deletion analysis of the HCV structuralgenes demonstrated that the core gene alone or the fragmentcontaining the core protein's N-terminal 122 amino acid residuesconferred the same level of suppressive activity as the full-lengthstructural genes. By indirect immunofluorescence, we found thatthe core protein of HCV was located in the cytoplasm of transfectedHuH-7 cells at day 3 posttransfection and was targeted to thenucleus at day 6. Thus, the kinetics of the suppressive effectexerted by HCV constructs matched the timing of core proteinentrance into the nucleus. Our results substantiate the clinicalfinding that HBV markers are suppressed by superinfection withHCV and further imply that this inhibitory effect may occurin the processes of transcription and encapsidation of HBV pregenomicRNA and may be mediated by the core protein of HCV. The deducedamino acid sequence of the HCV core protein has revealed thatit is a basic protein which contains a putative DNA-bindingmotif (SPRG), as well as triplicate nuclear localization signalsand several putative protein kinase A and C recognition sites.These characteristics imply that the HCV core protein can alsofunction as a gene-regulatory protein.

J Virol. 1993 October; 67(10): 5823-5832

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