Persistence of recombinant adenovirus in vivo is not dependent on vector DNA replication.

Recombinant adenovirus vectors represent an efficient means of transferring genes into many different organs. The first-generation E1-deleted vector genome remains episomal and, in the absence of host immunity, persists long-term in quiescent tissues such as the liver. The mechanism(s) which allows for persistence has not been established; however, vector DNA replication may be important because replication has been shown to occur in tissue culture systems. We have utilized a site-specific methylation strategy to monitor the replicative fate of E1-deleted adenovirus vectors in vitro and in vivo. Methylation-marked adenovirus vectors were produced by the addition of a methyl group onto the N6 position of the adenine base of XhoI sites, CTCGAG, by propagation of vectors in 293 cells expressing the XhoI isoschizomer PaeR7 methyltransferase. The methylation did not affect vector production or transgene expression but did prevent cleavage by XhoI. Loss of methylation through viral replication restores XhoI cleavage and was observed by Southern analysis in a wide variety of, but not all, cell culture systems studied, including hepatoma and mouse and macaque primary hepatocyte cultures. In contrast, following liver-directed gene transfer of methylated vector in C57BL/6 mice, adenovirus vector DNA was not cleaved by XhoI and therefore did not replicate, even after a period of 3 weeks. Although replication may occur in some tissues, these results show that stabilization of the vector within the target tissue prior to clearance by host immunity is not dependent upon replication of the vector, demonstrating that the input transduced DNA genomes were the persistent molecules. This information will be useful for the design of optimal adenovirus vectors and perhaps nonviral episomal vectors for clinical gene therapy.