Litcius/Paper detail

Interferon Alpha Induces Multiple Cellular Proteins That Coordinately Suppress Hepadnaviral Covalently Closed Circular DNA Transcription

Junjun Cheng, Qiong Zhao, Yan Zhou, Liudi Tang, Muhammad Sheraz, Jinhong Chang, Ju‐Tao Guo

2020Journal of Virology36 citationsDOIOpen Access PDF

Abstract

Pegylated IFN-α is the only therapeutic regimen that can induce a functional cure of chronic hepatitis B in a small, but significant, fraction of treated patients. Understanding the mechanisms underlying the antiviral functions of IFN-α in hepadnaviral infection may reveal molecular targets for development of novel antiviral agents to improve the therapeutic efficacy of IFN-α. By a loss-of-function genetic screening of individual IFN-stimulated genes (ISGs) on hepadnaviral mRNAs transcribed from cccDNA, we found that downregulating the expression of STAT1, SMCHD1, or PML significantly increased the level of viral RNAs without altering the level of cccDNA. Mechanistic analyses indicated that those cellular proteins are recruited to cccDNA minichromosomes and induce the posttranslational modifications of cccDNA-associated histones similar to those induced by IFN-α treatment. We have thus identified three IFN-α-induced cellular proteins that suppress cccDNA transcription and may partly mediate IFN-α silencing of hepadnaviral cccDNA transcription.

Topics & Concepts

cccDNABiologyTranscription (linguistics)Gene silencingGene knockdownTranscription factorVirologyDNA-binding proteinCell biologyGeneGeneticsHepatitis B virusVirusHBsAgLinguisticsPhilosophyHepatitis B Virus StudiesHepatitis C virus researchinterferon and immune responses
Interferon Alpha Induces Multiple Cellular Proteins That Coordinately Suppress Hepadnaviral Covalently Closed Circular DNA Transcription | Litcius