Although the hepatitis C virus (HCV) subgenomic replicon system has been widely used in the study of HCV, this system is available only for a few related genotypes. To develop a new replicon system, the genotype 2a clone JFH-1 was isolated from a patient with fulminant hepatitis.

A genotype 2a replicon was constructed by isolating the consensus sequence of JFH-1, transfecting G418-selectable subgenomic transcripts into Huh7 cells, and estimating the replication efficiency.

The colony formation efficiency of the JFH-1 replicon was 53,200 colonies/μg RNA, significantly higher than that of the genotype 1b cell-adapted replicon, at 909 colonies/μg RNA (P < 0.05). The JFH-1 replicon RNA was transmissible to naive Huh7 cells by transfection of cellular RNA from cells containing the replicon. Sequencing of cloned replicon RNAs revealed that all but 1 had at least 1 nonsynonymous mutation. One of these mutations was shown to enhance the colony formation efficiency of the JFH-1 replicon. Furthermore, the JFH-1 replicon RNA replicated efficiently without G418 selection in a transient replication assay.

The genotype 2a subgenomic replicon was established in Huh7 cells and replicated efficiently with or without G418 selection. This subgenomic replicon could replicate without common amino acid mutations; however, some of the mutations found in the clones might be important in conferring higher replication phenotypes. This system provides a powerful new tool for researching HCV.