JCI Insight (Aug 2021)

IL-13 is a driver of COVID-19 severity

  • Alexandra N. Donlan,
  • Tara E. Sutherland,
  • Chelsea Marie,
  • Saskia Preissner,
  • Benjamin T. Bradley,
  • Rebecca M. Carpenter,
  • Jeffrey M. Sturek,
  • Jennie Z. Ma,
  • G. Brett Moreau,
  • Jeffrey R. Donowitz,
  • Gregory A. Buck,
  • Myrna G. Serrano,
  • Stacey L. Burgess,
  • Mayuresh M. Abhyankar,
  • Cameron Mura,
  • Philip E. Bourne,
  • Robert Preissner,
  • Mary K. Young,
  • Genevieve R. Lyons,
  • Johanna J. Loomba,
  • Sarah J. Ratcliffe,
  • Melinda D. Poulter,
  • Amy J. Mathers,
  • Anthony J. Day,
  • Barbara J. Mann,
  • Judith E. Allen,
  • William A. Petri Jr.

Journal volume & issue
Vol. 6, no. 15

Abstract

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Immune dysregulation is characteristic of the more severe stages of SARS-CoV-2 infection. Understanding the mechanisms by which the immune system contributes to COVID-19 severity may open new avenues to treatment. Here, we report that elevated IL-13 was associated with the need for mechanical ventilation in 2 independent patient cohorts. In addition, patients who acquired COVID-19 while prescribed Dupilumab, a mAb that blocks IL-13 and IL-4 signaling, had less severe disease. In SARS-CoV-2–infected mice, IL-13 neutralization reduced death and disease severity without affecting viral load, demonstrating an immunopathogenic role for this cytokine. Following anti–IL-13 treatment in infected mice, hyaluronan synthase 1 (Has1) was the most downregulated gene, and accumulation of the hyaluronan (HA) polysaccharide was decreased in the lung. In patients with COVID-19, HA was increased in the lungs and plasma. Blockade of the HA receptor, CD44, reduced mortality in infected mice, supporting the importance of HA as a pathogenic mediator. Finally, HA was directly induced in the lungs of mice by administration of IL-13, indicating a new role for IL-13 in lung disease. Understanding the role of IL-13 and HA has important implications for therapy of COVID-19 and, potentially, other pulmonary diseases. IL-13 levels were elevated in patients with severe COVID-19. In a mouse model of the disease, IL-13 neutralization reduced the disease and decreased lung HA deposition. Administration of IL-13–induced HA in the lung. Blockade of the HA receptor CD44 prevented mortality, highlighting a potentially novel mechanism for IL-13–mediated HA synthesis in pulmonary pathology.

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