Physiological Reports (Nov 2021)

Delayed angiopoietin‐2 blockade reduces influenza‐induced lung injury and improves survival in mice

  • Jeffrey E. Gotts,
  • Mazharul Maishan,
  • Lauren Chun,
  • Xiaohui Fang,
  • Chun‐Ya Han,
  • Venice Chiueh,
  • Aarif Y. Khakoo,
  • TaeWeon Lee,
  • Marina Stolina,
  • Michael A. Matthay

DOI
https://doi.org/10.14814/phy2.15081
Journal volume & issue
Vol. 9, no. 21
pp. n/a – n/a

Abstract

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Abstract Influenza remains a major cause of death and disability with limited treatment options. Studies of acute lung injury have identified angiopoietin‐2 (Ang‐2) as a key prognostic marker and a potential mediator of Acute respiratory distress syndrome. However, the role of Ang‐2 in viral pneumonia remains poorly defined. This study characterized the time course of lung Ang‐2 expression in severe influenza pneumonia and tested the therapeutic potential of Ang‐2 inhibition. We inoculated adult mice with influenza A (PR8 strain) and measured angiopoietin‐1 (Ang‐1), Ang‐2, and Tie2 expressions during the evolution of inflammatory lung injury over the first 7 days post‐infection (dpi). We tested a peptide‐antibody inhibitor of Ang‐2, L1‐7, administered at 2, 4, and 6 dpi and measured arterial oxygen saturation, survival, pulmonary edema, inflammatory cytokines, and viral load. Finally, we infected primary human alveolar type II epithelial (AT2) cells grown in air‐liquid interface culture with influenza and measured Ang‐2 RNA expression. Influenza caused severe lung injury between 5 and 7 dpi in association with increased Ang‐2 lung RNA and a dramatic increase in Ang‐2 protein in bronchoalveolar lavage. Inhibition of Ang‐2 improved oxygenation and survival and reduced pulmonary edema and alveolar‐capillary barrier permeability to protein without major effects on inflammation or viral load. Finally, influenza increased the expression of Ang‐2 RNA in human AT2 cells. The increased Ang‐2 levels in the airspaces during severe influenza pneumonia and the improvement in clinically relevant outcomes after Ang‐2 antagonism suggest that the Ang‐1/Ang‐2 Tie‐2 signaling axis is a promising therapeutic target in influenza and potentially other causes of viral pneumonia.

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