Translatomic profiling reveals novel self-restricting virus-host interactions during HBV infection

J Hepatol. 2021 Jul;75(1):74-85. doi: 10.1016/j.jhep.2021.02.009. Epub 2021 Feb 20.

Abstract

Background & aims: HBV remains a global threat to human health. It remains incompletely understood how HBV self-restricts in the host during most adult infections. Thus, we performed multi-omics analyses to systematically interrogate HBV-host interactions and the life cycle of HBV.

Methods: RNA-sequencing and ribosome profiling were conducted with cell-based models for HBV replication and gene expression. The novel translational events or products hereby detected were then characterized, and functionally assessed in both cell and mouse models. Moreover, quasi-species analyses of HBV subpopulations were conducted with patients at immune tolerance or activation phases, using next- or third-generation sequencing.

Results: We identified EnhI-SL (Enhancer I-stem loop) as a new cis element in the HBV genome; mutations disrupting EnhI-SL were found to elevate viral polymerase expression. Furthermore, while re-discovering HpZ/P', a previously under-explored isoform of HBV polymerase, we also identified HBxZ, a novel short isoform of HBX. Having confirmed their existence, we functionally characterized them as potent suppressors of HBV gene expression and genome replication. Mechanistically, HpZ/P' was found to repress HBV gene expression partially by interacting with, and sequestering SUPV3L1. Activation of the host immune system seemed to reduce the abundance of HBV mutants deficient in HpZ/P' or with disruptions in EnhI-SL. Finally, SRSF2, a host RNA spliceosome protein that is downregulated by HBV, was found to promote the splicing of viral pre-genomic RNA and HpZ/P' biogenesis.

Conclusion: This study has identified multiple self-restricting HBV-host interactions. In particular, SRSF2-HpZ/P' appeared to constitute another negative feedback mechanism in the HBV life cycle. Targeting host splicing machinery might thus represent a strategy to intervene in HBV-host interactions.

Lay summary: There remain many unknowns about the natural history of HBV infection in adults. Herein, we identified new HBV-host mechanisms which could be responsible for self-restricting infections. Targeting these mechanisms could be a promising strategy for the treatment of HBV infections.

Keywords: EnhI-SL; HBV; HBxZ; HpZ/P′; Ribosome-profiling; Translatomic.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Animals
  • Drug Discovery
  • Gene Products, pol / metabolism*
  • Genome, Viral / physiology
  • Hepatitis B virus* / enzymology
  • Hepatitis B virus* / genetics
  • Hepatitis B virus* / immunology
  • Hepatitis B, Chronic* / immunology
  • Hepatitis B, Chronic* / virology
  • Host Microbial Interactions / immunology*
  • Humans
  • Mice
  • Promoter Regions, Genetic
  • Protein Modification, Translational
  • RNA, Ribosomal, Self-Splicing / metabolism
  • RNA-Directed DNA Polymerase / metabolism
  • Serine-Arginine Splicing Factors / metabolism
  • Virus Replication* / genetics
  • Virus Replication* / immunology

Substances

  • Gene Products, pol
  • P protein, Hepatitis B virus
  • RNA, Ribosomal, Self-Splicing
  • SRSF2 protein, mouse
  • SRSF2 protein, human
  • Serine-Arginine Splicing Factors
  • RNA-Directed DNA Polymerase