Communications Biology (Jun 2023)

An IL-17-EGFR-TRAF4 axis contributes to the alleviation of lung inflammation in severe influenza

  • Avijit Dutta,
  • Chen-Yiu Hung,
  • Tse-Ching Chen,
  • Sung-Han Hsiao,
  • Chia-Shiang Chang,
  • Yung-Chang Lin,
  • Chun-Yen Lin,
  • Ching-Tai Huang

DOI
https://doi.org/10.1038/s42003-023-04982-0
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 14

Abstract

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Abstract Excessive inflammation is a postulated cause of severe disease and death in respiratory virus infections. In response to severe influenza virus infection, adoptively transferred naïve hemagglutinin-specific CD4+ T cells from CD4+ TCR-transgenic 6.5 mice drive an IFN-γ-producing Th1 response in wild-type mice. It helps in virus clearance but also causes collateral damage and disease aggravation. The donor 6.5 mice have all the CD4+ T cells with TCR specificity toward influenza hemagglutinin. Still, the infected 6.5 mice do not suffer from robust inflammation and grave outcome. The initial Th1 response wanes with time, and a prominent Th17 response of recent thymic emigrants alleviates inflammation and bestows protection in 6.5 mice. Our results suggest that viral neuraminidase-activated TGF-β of the Th1 cells guides the Th17 evolution, and IL-17 signaling through the non-canonical IL-17 receptor EGFR activates the scaffold protein TRAF4 more than TRAF6 during alleviation of lung inflammation in severe influenza.