Abstract

Interferon (IFN) stimulates a whole repertoire of cellular genes, collectively referred to as ISGs (Interferon-stimulated genes). ISG20, a 3´-5´ exonuclease enzyme, has been previously shown to bind and degrade hepatitis B Virus (HBV) transcripts. Here, we show that the N6-methyladenosine (m6A)-modified HBV transcripts are selectively recognized and processed for degradation by ISG20. Moreover, this effect of ISG20 is critically regulated by m6A reader protein, YTHDF2 (YTH-domain family 2). Previously, we identified a unique m6A site within HBV transcripts and confirmed that methylation at nucleotide A1907 regulates HBV lifecycle. In this report, we now show that the methylation at A1907 is a critical regulator of IFN-α mediated decay of HBV RNA. We observed that the HBV RNAs become less sensitive to ISG20 mediated degradation when methyltransferase enzymes or m6A reader protein YTHDF2 are silenced in HBV expressing cells. By using an enzymatically inactive form ISG20D94G, we further demonstrated that ISG20 forms a complex with m6A modified HBV RNA and YTHDF2 protein. Due to terminal redundancy, HBV genomic nucleotide A1907 position is acquired twice by pregenomic RNA (pgRNA) during transcription and therefore the sites of methylation are encoded within 5´ and 3´ epsilon stem loops. We generated HBV mutants that lack m6A site at either one (5´ or 3´) or both the termini (5´& 3´). Using these mutants, we demonstrated that m6A modified HBV RNAs are subjected to ISG20-mediated decay and propose sequence of events, in which ISG20 binds with YTHDF2 and recognizes m6A-modified HBV transcripts to carry out the ribonuclease activity. This is the first study, which identifies a hitherto unknown role of m6A modification of RNA in IFN-α induced viral RNA degradation and proposes a new role of YTHDF2 protein as a cofactor required for IFN-α mediated viral RNA degradation.

Highlights

  • IFNs are a family of secretory proteins with the ability to impede viral infection and replication [1,2,3]

  • Interferon stimulated antiviral RNase, ISG20 selectively binds to the lower epsilon stem loop of hepatitis B Virus (HBV) RNA and causes their degradation

  • ISG20 binding site is chemically modified by N6-methyladenosine addition to A1907 residue, which resides in the lower region of the epsilon stem loop

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Summary

Introduction

IFNs are a family of secretory proteins with the ability to impede viral infection and replication [1,2,3]. YTHDF2 can recruit CCR4-NOT (C-C motif chemokine receptor 4—negative on TATA-less) deadenylase complex by directly interacting with the SH-domain of CNOT1 (CCR4-NOT Transcription Complex Subunit 1), the scaffolding subunit of the complex, to initiate deadenylation and decay of m6A-containing mRNAs [19]. Another m6A reader protein YTHDC2 plays an important role in regulating mRNA stability by mediating an interaction with the XRN1 (5 ́-3 ́exoribonuclease 1) [20]. These previous observations establish that the m6A modification is intricately linked with the RNA degradation machinery

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