Mutant woodchuck hepatitis virus genomes from virions resemble rearranged hepadnaviral integrants in hepatocellular carcinoma.

Although hepadnaviruses are implicated in the etiology of hepatocellular carcinoma, the pathogenic mechanisms involved remain uncertain. Clonally propagated integrations of hepadnaviral DNA into cellular DNA can be demonstrated in most virally induced hepatocellular carcinomas. Integration occurs at random sites in cellular DNA, but the highly preferred sites in viral DNA are adjacent to the directly repeated sequence DR1, less often DR2, or in the cohesive overlap region. Integrants invariably contain simple deletions or complex rearrangements that have been thought to occur after integration. We report here the detection of mutant woodchuck hepatitis virus (WHV) genomes cloned from virions in serum that are strikingly similar to the rearranged hepadnaviral genomes found previously as integrated sequences in cellular DNA. Of 102 cloned genomes studied, 2 had large inverted duplications, 1 a 219-nucleotide direct duplication, and 1 a 219-nucleotide deletion. Virus-virus DNA junctions occurred either adjacent to DR1 or DR2 or in the cohesive overlap region at preferred topoisomerase I cleavage sites. Since these sites are located in the single-stranded regions of the genome, cleavage by topoisomerase I would produce linear molecules that would be expected to be highly recombinogenic since this enzyme, possessing nicking and ligating activities, would remain covalently attached. Sucrose density gradient centrifugation coupled with polymerase chain reaction studies confirmed that the mutant WHV DNA forms resided in virions and did not represent free viral DNA released from infected cells or were unlikely to be an artifact of the cloning process. Thus, the finding in virions of mutant WHV DNA similar to WHV DNA integrated into cellular DNA suggests that the processes of mutation and integration are linked in some instances. Furthermore, the mutant genomes that are preferentially integrated into cellular DNA may have an etiologic role in hepatocarcinogenesis. IMAGES: