Senataxin mediates R-loop resolution on HPV episomes

Abstract

ABSTRACT Three-stranded DNA–RNA structures known as R-loops that form during papillomavirus transcription can cause transcription–replication conflicts and lead to DNA damage. We found that R-loops accumulated at the viral early promoter in human papillomavirus (HPV) episomal cells but were greatly reduced in cells with integrated HPV genomes. RNA–DNA helicases unwind R-loops and allow for transcription and replication to proceed. Depletion of the RNA–DNA helicase senataxin (SETX) using siRNAs increased the presence of R-loops at the viral early promoter in HPV-31 (CIN612) and HPV-16 (W12) episomal HPV cell lines. Depletion of SETX reduced viral transcripts in episomal HPV cell lines. The viral E2 protein, which binds with high affinity to specific palindromes near the promoter and origin, complexes with SETX, and both SETX and E2 are present at the viral p97 promoter in CIN612 and W12 cells. SETX overexpression increased E2 transcription activity on the p97 promoter. SETX depletion also significantly increased integration of viral genomes in CIN612 cells. Our results demonstrate that SETX resolves viral R-loops to proceed with HPV transcription and prevent genome integration. IMPORTANCE Papillomaviruses contain small circular genomes of approximately 8 kilobase pairs and undergo unidirectional transcription from the sense strand of the viral genome. Co-transcriptional R-loops were recently reported to be present at high levels in cells that maintain episomal HPV and were also detected at the early viral promoter. R-loops can inhibit transcription and DNA replication. The process that removes R-loops from the PV genome and the requisite enzymes are unknown. We propose a model in which the host RNA–DNA helicase senataxin assembles on the HPV genome to resolve R-loops in order to maintain the episomal status of the viral genome.