Cell Reports (Apr 2019)

The Influenza A Virus Endoribonuclease PA-X Usurps Host mRNA Processing Machinery to Limit Host Gene Expression

  • Lea Gaucherand,
  • Brittany K. Porter,
  • Rachel E. Levene,
  • Emma L. Price,
  • Summer K. Schmaling,
  • Chris H. Rycroft,
  • Yuzo Kevorkian,
  • Craig McCormick,
  • Denys A. Khaperskyy,
  • Marta M. Gaglia

Journal volume & issue
Vol. 27, no. 3
pp. 776 – 792.e7

Abstract

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Summary: Many viruses shut off host gene expression to inhibit antiviral responses. Viral proteins and host proteins required for viral replication are typically spared in this process, but the mechanisms of target selectivity during host shutoff remain poorly understood. Using transcriptome-wide and targeted reporter experiments, we demonstrate that the influenza A virus endoribonuclease PA-X usurps RNA splicing to selectively target host RNAs for destruction. Proximity-labeling proteomics reveals that PA-X interacts with cellular RNA processing proteins, some of which are partially required for host shutoff. Thus, PA-X taps into host nuclear pre-mRNA processing mechanisms to destroy nascent mRNAs shortly after their synthesis. This mechanism sets PA-X apart from other viral host shutoff proteins that target actively translating mRNAs in the cytoplasm. Our study reveals a unique mechanism of host shutoff that helps us understand how influenza viruses suppress host gene expression. : Gaucherand et al. uncover a unique relationship between RNA degradation by the influenza A virus ribonuclease PA-X and host RNA splicing, which allows PA-X to selectively target host RNAs for destruction. Keywords: influenza, host shutoff, PA-X, splicing, CFIm