Proteomic Analysis of Nuclear HBV rcDNA Associated Proteins Identifies UV-DDB as a Host Factor Involved in cccDNA Formation

Abstract

Despite the lifecycle of the hepatitis B virus (HBV) being extensively investigated and described, there remains a significant gap in our knowledge of arguably one of the most crucial steps in the HBV lifecycle, the formation and maintenance of a covalently closed circular DNA (cccDNA) reservoir. Advancements in our understanding of host factors and pathways involved in cccDNA formation have been made through hypothesis driven studies and shRNA/siRNA screenings. We sought to create a targeted-unbiased assay to directly observe host factor-rcDNA interactions. This was achieved through an rcDNA Co-Immunoprecipitation paired Mass Spectrometry (rcDNA-CoIP/MS) assay. We created a DNA oligo complimentary to the open portion of the HBV rcDNA, labeled with biotin, to facilitate easy precipitation of nuclear rcDNA and complexed proteins. Proteins precipitated were analyzed through liquid chromatography paired mass spectrometry (LC/MS). Along with previously reported host factors, several factors of DNA damage repair pathways/complexes were also identified. A component of the UV-DDB complex, DDB1, surfaced as a hit. UV-DDB/rcDNA binding was confirmed through ChIP-qPCR. DDB2, the DNA damage binding component of the UV-DDB complex was knocked out in HepG2-NTCP and HepAD38 cells. This resulted in a significant decrease in the formation of cccDNA in DDB2 knockout cell lines following infection or induction. The subsequent reduction of downstream indicators of cccDNA formation such as viral RNA and proteins, HBcAg and HBeAg, showed a consistent decrease with cccDNA levels. Ectopic expression of DDB2 in the knockout cell lines rescued HBV phenotypes of cccDNA levels and its downstream indicators. Inactive mutant DDB2 plasmids were also transfected into the DDB2 K/O cell lines and failed to rescue cccDNA indicators. We therefore showed through a novel assay that we can discover novel viral rcDNA-host interactions, such as the UV-DDB complex recruiting DNA repair pathways to “repair” rcDNA to cccDNA.