XRN1 supplies free nucleotides to feed alphavirus replication

  1. Vincenzo Ruscica
  2. Louisa Iselin
  3. Ryan Hull
  4. Azman Embarc-Buh
  5. Samyukta Narayanan
  6. Natasha Palmalux
  7. Namah Raut
  8. Quan Gu
  9. Honglin Chen
  10. Marko Noerenberg
  11. Zaydah R. de Laurent
  12. Josmi Joseph
  13. Michelle Noble
  14. Catia Igreja
  15. David L. Robertson
  16. Joseph Hughes
  17. Shabaz Mohammed
  18. Vicent Pelechano
  19. Ilan Davis
  20. Alfredo Castello
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Abstract

Several RNA viruses induce widespread degradation of cellular mRNAs upon infection; however, the biological significance and mechanistic details of this phenomenon remain unknown. Here, we make use of a model alphavirus, Sindbis virus (SINV), to fill this knowledge gap. We found that SINV triggers cellular RNA decay through the exonuclease XRN1 and the 5’-to-3’ degradation machinery (5-3DM). These proteins accumulate at viral replication organelles (VROs) and interact with the non-structural protein 1 (nsP1), bringing mRNA degradation into proximity with vRNA synthesis. Our data suggest that monophosphate nucleotides released by cellular RNA decay are recycled through the salvage pathway to feed viral replications. Our work thus reveals a fundamental connection between cellular mRNA degradation and viral replication via nucleotides repurposing.

Research highlights

  • 5’-3’ RNA decay is essential for the replication of a wide range of viruses.

  • XRN1 directly interacts with transcripts which are degraded during infection.

  • RNA decay factors and salvage pathway members localise to viral factories.

  • Supplying nucleosides to several 5-3DM deficient cells facilitates SINV infection.

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  1. Version published to 10.1101/2024.12.09.625895v1 on bioRxiv