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Proteomic Analysis of Nuclear Hepatitis B Virus Relaxed Circular DNA-Associated Proteins Identifies UV-Damaged DNA Binding Protein as a Host Factor Involved in Covalently Closed Circular DNA Formation

Alexander L. Marchetti, Hu Zhang, Elena S. Kim, Xiaoyang Yu, Sunbok Jang, Mu Wang, Haitao Guo

2021Journal of Virology26 citationsDOIOpen Access PDF

Abstract

Serving as a key viral factor for chronic hepatitis B virus (HBV) infection, HBV covalently closed circular DNA (cccDNA) is formed in the cell nucleus from viral relaxed circular DNA (rcDNA) by hijacking host DNA repair machinery. Previous studies have identified several host DNA repair factors involved in cccDNA formation through hypothesis-driven research with some help from RNA interference (RNAi) screening and/or biochemistry approaches. To enrich the landscape of tools for discovering host factors responsible for rcDNA-to-cccDNA conversion, we developed an rcDNA immunoprecipitation paired mass spectrometry assay, which allowed us to pull down nuclear rcDNA in its transitional state to cccDNA and observe the associated host factors. From this assay, we discovered a novel relationship between the UV-DDB complex and cccDNA formation, providing a proof of concept for a more direct discovery of novel HBV DNA-host interactions that can be exploited to develop new cccDNA-targeting antivirals.

Topics & Concepts

cccDNABiologyDDB1Molecular biologyNuclear proteinDNA repairDNADNA-binding proteinGene knockdownDNA replicationDNA damageHepatitis B virusEctopic expressionHMG-boxCell biologyProliferating cell nuclear antigenReplication protein ASUMO proteinVirologyDNA ligaseCell nucleusNucleotide excision repairPlasma protein bindingTranscription activator-like effector nucleaseHBxDNA binding siteHepatitis B Virus StudiesHIV Research and TreatmentDNA Repair Mechanisms
Proteomic Analysis of Nuclear Hepatitis B Virus Relaxed Circular DNA-Associated Proteins Identifies UV-Damaged DNA Binding Protein as a Host Factor Involved in Covalently Closed Circular DNA Formation | Litcius