Hijikata Makoto

Molecular cloning of hepatitis C virus genome from a single Japanese carrier: sequence variation within the same individual and among infected individuals.

A hepatitis C virus (HCV) genome was isolated and sequenced from a single Japanese patient with chronic non-A, non-B hepatitis. The genome (HCV-JT), which was constructed with 23 cDNA clones, consisted of 9436 nucleotides with a long open reading frame which could encode a sequence of 3010 amino acid residues. To study the sequence variation of the HCV genome in an individual, we analyzed another sequence of the HCV genome (HCV-JT) constructed with different cDNA clones derived from the same patient. The nucleotide variation between HCV-JT and -JT was less than 1%, and was distributed throughout the genome except in the 5 non-coding region, where no variation was observed. The diversity was higher (1.6%) in the putative envelope protein region than in other regions. The nucleotide and deduced amino acid sequences of HCV-JT showed homologies of about 91 and 95%, respectively, with those of other Japanese HCV isolates. The nucleotide diversity was high in the gp 70 region (corresponding to the NS 1 region of flaviviruses) and low in the 5 non-coding and p22 (putative core protein) regions. A similar pattern of distribution of nucleotide changes was observed on comparison of HCV-JT with an American isolate HCV-US, where the homologies in nucleotide and amino acid sequences were about 79 and 85%, respectively. Base transversions contributed about 50% of the total base exchanges between the Japanese and American HCV sequences, but only 20% or less of those among Japanese HCV or among American HCV sequences. Thus, the Japanese and American HCVs are genetically distinguishable, supporting our earlier prediction that these two HCVs could be classified as different subtypes.

IDENTIFICATION OF THE DOMAIN REQUIRED FOR TRANS-CLEAVAGE ACTIVITY OF HEPATITIS C VIRAL SERINE PROTEINASE

Abstract A serine proteinase, Cpro-2, encoded in the hepatitis C virus (HCV) genome, is considered to be located in the N-terminal part of HCV p70, one of the putative nonstructural (NS) proteins of HCV. Cpro-2 is suggested to be responsible for producing several kinds of NS proteins by processing of the HCV precursor polyprotein. We identified the active domain of Cpro-2 and clarified the mechanism of HCV polyprotein processing; various HCV mutants deleted around this serine proteinase structure were cosynthesized with unprocessed HCV polypeptides containing Cpro-2-dependent cleavage sites in COS-1 cells. We showed that Cpro-2 cleaved the HCV precursor polyprotein intermolecularly (trans) and that Cpro-2 domain which is necessary and sufficient for that cleavage mapped to within 167 aa, from Gly1049 to Ser1215 of the HCV precursor polyprotein.