PLoS Pathogens (Oct 2020)

Identification of Interleukin1β as an Amplifier of Interferon alpha-induced Antiviral Responses.

  • Katharina Robichon,
  • Tim Maiwald,
  • Marcel Schilling,
  • Annette Schneider,
  • Joschka Willemsen,
  • Florian Salopiata,
  • Melissa Teusel,
  • Clemens Kreutz,
  • Christian Ehlting,
  • Jun Huang,
  • Sajib Chakraborty,
  • Xiaoyun Huang,
  • Georg Damm,
  • Daniel Seehofer,
  • Philipp A Lang,
  • Johannes G Bode,
  • Marco Binder,
  • Ralf Bartenschlager,
  • Jens Timmer,
  • Ursula Klingmüller

DOI
https://doi.org/10.1371/journal.ppat.1008461
Journal volume & issue
Vol. 16, no. 10
p. e1008461

Abstract

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The induction of an interferon-mediated response is the first line of defense against pathogens such as viruses. Yet, the dynamics and extent of interferon alpha (IFNα)-induced antiviral genes vary remarkably and comprise three expression clusters: early, intermediate and late. By mathematical modeling based on time-resolved quantitative data, we identified mRNA stability as well as a negative regulatory loop as key mechanisms endogenously controlling the expression dynamics of IFNα-induced antiviral genes in hepatocytes. Guided by the mathematical model, we uncovered that this regulatory loop is mediated by the transcription factor IRF2 and showed that knock-down of IRF2 results in enhanced expression of early, intermediate and late IFNα-induced antiviral genes. Co-stimulation experiments with different pro-inflammatory cytokines revealed that this amplified expression dynamics of the early, intermediate and late IFNα-induced antiviral genes can also be achieved by co-application of IFNα and interleukin1 beta (IL1β). Consistently, we found that IL1β enhances IFNα-mediated repression of viral replication. Conversely, we observed that in IL1β receptor knock-out mice replication of viruses sensitive to IFNα is increased. Thus, IL1β is capable to potentiate IFNα-induced antiviral responses and could be exploited to improve antiviral therapies.