Cell Reports (Aug 2020)

Influenza-Induced Oxidative Stress Sensitizes Lung Cells to Bacterial-Toxin-Mediated Necroptosis

  • Norberto Gonzalez-Juarbe,
  • Ashleigh N. Riegler,
  • Alexander S. Jureka,
  • Ryan P. Gilley,
  • Jeffrey D. Brand,
  • John E. Trombley,
  • Ninecia R. Scott,
  • Maryann P. Platt,
  • Peter H. Dube,
  • Chad M. Petit,
  • Kevin S. Harrod,
  • Carlos J. Orihuela

Journal volume & issue
Vol. 32, no. 8
p. 108062

Abstract

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Summary: Pneumonias caused by influenza A virus (IAV) co- and secondary bacterial infections are characterized by their severity and high mortality rate. Previously, we have shown that bacterial pore-forming toxin (PFT)-mediated necroptosis is a key driver of acute lung injury during bacterial pneumonia. Here, we evaluate the impact of IAV on PFT-induced acute lung injury during co- and secondary Streptococcus pneumoniae (Spn) infection. We observe that IAV synergistically sensitizes lung epithelial cells for PFT-mediated necroptosis in vitro and in murine models of Spn co-infection and secondary infection. Pharmacoelogical induction of oxidative stress without virus sensitizes cells for PFT-mediated necroptosis. Antioxidant treatment or inhibition of necroptosis reduces disease severity during secondary bacterial infection. Our results advance our understanding on the molecular basis of co- and secondary bacterial infection to influenza and identify necroptosis inhibition and antioxidant therapy as potential intervention strategies.

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