PLoS Pathogens (Jan 2016)

A20 Deficiency in Lung Epithelial Cells Protects against Influenza A Virus Infection.

  • Jonathan Maelfait,
  • Kenny Roose,
  • Lars Vereecke,
  • Conor Mc Guire,
  • Mozes Sze,
  • Martijn J Schuijs,
  • Monique Willart,
  • Lorena Itati Ibañez,
  • Hamida Hammad,
  • Bart N Lambrecht,
  • Rudi Beyaert,
  • Xavier Saelens,
  • Geert van Loo

DOI
https://doi.org/10.1371/journal.ppat.1005410
Journal volume & issue
Vol. 12, no. 1
p. e1005410

Abstract

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A20 negatively regulates multiple inflammatory signalling pathways. We here addressed the role of A20 in club cells (also known as Clara cells) of the bronchial epithelium in their response to influenza A virus infection. Club cells provide a niche for influenza virus replication, but little is known about the functions of these cells in antiviral immunity. Using airway epithelial cell-specific A20 knockout (A20AEC-KO) mice, we show that A20 in club cells critically controls innate immune responses upon TNF or double stranded RNA stimulation. Surprisingly, A20AEC-KO mice are better protected against influenza A virus challenge than their wild type littermates. This phenotype is not due to decreased viral replication. Instead host innate and adaptive immune responses and lung damage are reduced in A20AEC-KO mice. These attenuated responses correlate with a dampened cytotoxic T cell (CTL) response at later stages during infection, indicating that A20AEC-KO mice are better equipped to tolerate Influenza A virus infection. Expression of the chemokine CCL2 (also named MCP-1) is particularly suppressed in the lungs of A20AEC-KO mice during later stages of infection. When A20AEC-KO mice were treated with recombinant CCL2 the protective effect was abrogated demonstrating the crucial contribution of this chemokine to the protection of A20AEC-KO mice to Influenza A virus infection. Taken together, we propose a mechanism of action by which A20 expression in club cells controls inflammation and antiviral CTL responses in response to influenza virus infection.