Persistence of an Oncogenic Papillomavirus Genome Requires Elements from the Viral Transcriptional Enhancer.

Reference
Van Doorslaer K, Chen D, Chapman S, Khan J, McBride AA. 2017. Persistence of an Oncogenic Papillomavirus Genome Requires Elements from the Viral Transcriptional Enhancer. mBio. 8. doi:10.1128/mBio.01758-17.
Abstract

Human papillomavirus (HPV) genomes are replicated and maintained as extrachromosomal plasmids during persistent infection. The viral E2 proteins are thought to promote stable maintenance replication by tethering the viral DNA to host chromatin. However, this has been very difficult to prove genetically, as the E2 protein is involved in transcriptional regulation and initiation of replication, as well as its assumed role in genome maintenance. This makes mutational analysis of viral factors and elements in the background of the viral genome problematic and difficult to interpret. To circumvent this problem, we have developed a complementation assay in which the complete wild-type HPV18 genome is transfected into primary human keratinocytes along with subgenomic or mutated replicons that contain the minimal replication origin. The wild-type genome provides the E1 and E2 proteins in , allowing us to determine additional elements that are required for long-term replication and partitioning of the replicon. We found that, in addition to the core replication origin (and the three E2 binding sites located therein), additional sequences from the transcriptional enhancer portion of the URR (upstream regulatory region) are required in for long-term genome replication. Human papillomaviruses infect cutaneous and mucosal epithelial cells of the host, and this results in very-long-lived, persistent infection. The viral genomes are small, circular, double-stranded DNA molecules that replicate extrachromosomally in concert with cellular DNA. This replication strategy requires that the virus has a robust mechanism to partition and retain the viral genomes in dividing cells. This has been difficult to study, because viral transcription, replication, and partitioning are regulated by the same viral proteins and involve overlapping elements in the viral genome. We developed a complementation assay that allows us to separate these functions and define the elements required for long-term replication and stable maintenance replication of the HPV genome. This has important implications, as disruption of viral maintenance replication can eliminate viral genomes from infected cells, thus curing persistent HPV infection.