Productive homologous and non-homologous recombination of hepatitis C virus in cell culture

Troels K H Scheel, Andrea Galli, Yi-Ping Li, Lotte S Mikkelsen, Judith M Gottwein, Jens Bukh

    28 Citations (Scopus)

    Abstract

    Genetic recombination is an important mechanism for increasing diversity of RNA viruses, and constitutes a viral escape mechanism to host immune responses and to treatment with antiviral compounds. Although rare, epidemiologically important hepatitis C virus (HCV) recombinants have been reported. In addition, recombination is an important regulatory mechanism of cytopathogenicity for the related pestiviruses. Here we describe recombination of HCV RNA in cell culture leading to production of infectious virus. Initially, hepatoma cells were co-transfected with a replicating JFH1ΔE1E2 genome (genotype 2a) lacking functional envelope genes and strain J6 (2a), which has functional envelope genes but does not replicate in culture. After an initial decrease in the number of HCV positive cells, infection spread after 13-36 days. Sequencing of recovered viruses revealed non-homologous recombinants with J6 sequence from the 5' end to the NS2-NS3 region followed by JFH1 sequence from Core to the 3' end. These recombinants carried duplicated sequence of up to 2400 nucleotides. HCV replication was not required for recombination, as recombinants were observed in most experiments even when two replication incompetent genomes were co-transfected. Reverse genetic studies verified the viability of representative recombinants. After serial passage, subsequent recombination events reducing or eliminating the duplicated region were observed for some but not all recombinants. Furthermore, we found that inter-genotypic recombination could occur, but at a lower frequency than intra-genotypic recombination. Productive recombination of attenuated HCV genomes depended on expression of all HCV proteins and tolerated duplicated sequence. In general, no strong site specificity was observed. Non-homologous recombination was observed in most cases, while few homologous events were identified. A better understanding of HCV recombination could help identification of natural recombinants and thereby lead to improved therapy. Our findings suggest mechanisms for occurrence of recombinants observed in patients.

    Original languageEnglish
    Article numbere1003228
    JournalP L o S Pathogens
    Volume9
    Issue number3
    Pages (from-to)1-12
    Number of pages13
    ISSN1553-7366
    DOIs
    Publication statusPublished - Mar 2013

    Keywords

    • Base Sequence
    • Carcinoma, Hepatocellular
    • Cell Line, Tumor
    • Genome, Viral
    • Hepacivirus
    • Hepatocytes
    • Homologous Recombination
    • Humans
    • Molecular Sequence Data
    • RNA, Viral
    • Sequence Analysis, RNA
    • Transfection
    • Virus Replication

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