Nature Communications (Jul 2023)

The HSV-1 ICP22 protein selectively impairs histone repositioning upon Pol II transcription downstream of genes

  • Lara Djakovic,
  • Thomas Hennig,
  • Katharina Reinisch,
  • Andrea Milić,
  • Adam W. Whisnant,
  • Katharina Wolf,
  • Elena Weiß,
  • Tobias Haas,
  • Arnhild Grothey,
  • Christopher S. Jürges,
  • Michael Kluge,
  • Elmar Wolf,
  • Florian Erhard,
  • Caroline C. Friedel,
  • Lars Dölken

DOI
https://doi.org/10.1038/s41467-023-40217-w
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 17

Abstract

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Abstract Herpes simplex virus 1 (HSV-1) infection and stress responses disrupt transcription termination by RNA Polymerase II (Pol II). In HSV-1 infection, but not upon salt or heat stress, this is accompanied by a dramatic increase in chromatin accessibility downstream of genes. Here, we show that the HSV-1 immediate-early protein ICP22 is both necessary and sufficient to induce downstream open chromatin regions (dOCRs) when transcription termination is disrupted by the viral ICP27 protein. This is accompanied by a marked ICP22-dependent loss of histones downstream of affected genes consistent with impaired histone repositioning in the wake of Pol II. Efficient knock-down of the ICP22-interacting histone chaperone FACT is not sufficient to induce dOCRs in ΔICP22 infection but increases dOCR induction in wild-type HSV-1 infection. Interestingly, this is accompanied by a marked increase in chromatin accessibility within gene bodies. We propose a model in which allosteric changes in Pol II composition downstream of genes and ICP22-mediated interference with FACT activity explain the differential impairment of histone repositioning downstream of genes in the wake of Pol II in HSV-1 infection.