IL-13 is a driver of COVID-19 severity

Alexandra N. Donlan; Tara E. Sutherland; Chelsea Marie; Saskia Preißner; Ben T. Bradley; Rebecca M. Carpenter; Jeffrey M. Sturek; Z. Jennie; 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 Loomba; Sarah J. Ratcliffe; Melinda D. Poulter; Amy J. Mathers; Anthony J. Day; Barbara J. Mann; Judith E. Allen; William A. Petri

doi:10.1101/2020.06.18.20134353

IL-13 is a driver of COVID-19 severity

Alexandra N. Donlan(University of Virginia), Tara E. Sutherland(Manchester Academic Health Science Centre), Chelsea Marie(University of Virginia), Saskia Preißner(Humboldt-Universität zu Berlin), Ben T. Bradley(University of Washington), Rebecca M. Carpenter(University of Virginia), Jeffrey M. Sturek(University of Virginia), Z. Jennie(University of Virginia), G. Brett Moreau(University of Virginia), Jeffrey R. Donowitz(Virginia Commonwealth University), Gregory A. Buck(Virginia Commonwealth University), Myrna G. Serrano(Virginia Commonwealth University), Stacey L. Burgess(University of Virginia), Mayuresh M. Abhyankar(University of Virginia), Cameron Mura(University of Virginia), Philip E. Bourne(University of Virginia), Robert Preißner(Humboldt-Universität zu Berlin), Mary K. Young(University of Virginia), Genevieve R. Lyons(University of Virginia), Johanna Loomba(University of Virginia), Sarah J. Ratcliffe(University of Virginia), Melinda D. Poulter(University of Virginia), Amy J. Mathers(University of Virginia), Anthony J. Day(Manchester Academic Health Science Centre), Barbara J. Mann(University of Virginia), Judith E. Allen(Manchester Academic Health Science Centre), William A. Petri(University of Virginia)

medRxiv

June 20, 2020

10.1101/2020.06.18.20134353

Cited by 73Open Access

Full Text

Abstract

Abstract 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 interleukin-13 (IL-13) was associated with the need for mechanical ventilation in two independent patient cohorts. In addition, patients who acquired COVID-19 while prescribed Dupilumab 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, in the lung, hyaluronan synthase 1 ( Has1 ) was the most downregulated gene and hyaluronan accumulation was decreased. Blockade of the hyaluronan receptor, CD44, reduced mortality in infected mice, supporting the importance of hyaluronan as a pathogenic mediator, and indicating a new role for IL-13 in lung disease. Understanding the role of IL-13 and hyaluronan has important implications for therapy of COVID-19 and potentially other pulmonary diseases. Summary L-13 levels are elevated in patients with severe COVID-19. In a mouse model of disease, IL-13 neutralization results in reduced disease and lung hyaluronan deposition. Similarly, blockade of hyaluronan’s receptor, CD44, reduces disease, highlighting a novel mechanism for IL-13-mediated pathology.

Related Papers

No related papers found

Powered by citation graph analysis