A functionally distinct neutrophil landscape in severe COVID-19 reveals opportunities for adjunctive therapies
Rachita Panda, Fernanda V.S. Castanheira, Jared M. Schlechte, Bas G.J. Surewaard, Hanjoo Brian Shim, Amanda Z. Zucoloto, Zdenka Slavikova, Bryan G. Yipp, Paul Kubes, Braedon McDonald
Rachita Panda, Fernanda V.S. Castanheira, Jared M. Schlechte, Bas G.J. Surewaard, Hanjoo Brian Shim, Amanda Z. Zucoloto, Zdenka Slavikova, Bryan G. Yipp, Paul Kubes, Braedon McDonald
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Research Article Immunology Infectious disease

A functionally distinct neutrophil landscape in severe COVID-19 reveals opportunities for adjunctive therapies

Abstract

Acute respiratory distress syndrome (ARDS) is a life-threatening syndrome, constituted by respiratory failure and diffuse alveolar damage that results from dysregulated local and systemic immune activation, causing pulmonary vascular, parenchymal, and alveolar damage. SARS-CoV-2 infection has become the dominant cause of ARDS worldwide, and emerging evidence implicates neutrophils and their cytotoxic arsenal of effector functions as central drivers of immune-mediated lung injury in COVID-19 ARDS. However, key outstanding questions are whether COVID-19 drives a unique program of neutrophil activation or effector functions that contribute to the severe pathogenesis of this pandemic illness and whether this unique neutrophil response can be targeted to attenuate disease. Using a combination of high-dimensional single-cell analysis and ex vivo functional assays of neutrophils from patients with COVID-19 ARDS, compared with those with non-COVID ARDS (caused by bacterial pneumonia), we identified a functionally distinct landscape of neutrophil activation in COVID-19 ARDS that was intrinsically programmed during SARS-CoV-2 infection. Furthermore, neutrophils in COVID-19 ARDS were functionally primed to produce high amounts of neutrophil extracellular traps. Surprisingly, this unique pathological program of neutrophil priming escaped conventional therapy with dexamethasone, thereby revealing a promising target for adjunctive immunotherapy in severe COVID-19.

Authors

Rachita Panda, Fernanda V.S. Castanheira, Jared M. Schlechte, Bas G.J. Surewaard, Hanjoo Brian Shim, Amanda Z. Zucoloto, Zdenka Slavikova, Bryan G. Yipp, Paul Kubes, Braedon McDonald

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Figure 5

Neutrophils in COVID-19 and non-COVID ARDS remain functionally competent to respond to secondary bacterial challenge.

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Neutrophils in COVID-19 and non-COVID ARDS remain functionally competent...
(A and B) Quantitative assessment of phagocytosis of bacteria (GFP-expressing S. aureus) by neutrophils using flow cytometry at (A) ICU admission and (B) day 7 of ICU admission of patients with COVID-19 ARDS and non-COVID ARDS, as well as healthy controls. Data represent the percentage of neutrophils containing GFP+ S. aureus, expressed as mean ± SEM (ICU admission: COVID-19 ARDS, n = 5; non-COVID ARDS, n = 3; healthy controls, n = 5; day 7: COVID-19, n = 4; non-COVID, n = 3; healthy controls, n = 5). (C and D) Quantification of NET production after stimulation with S. aureus by neutrophils from patients with COVID-19 (n = 13) and non-COVID ARDS (n = 4) and healthy controls (n = 13) at (C) ICU admission and (D) day 7 of ICU admission. Dots represent individual patients, bars represent median, and whiskers represent the range. (E and F) ROS production following stimulation with S. aureus by neutrophils from patients with COVID-19 ARDS (n = 11) and non-COVID ARDS (n = 6) detected by luminol fluorescence assay, shown by AUC of luminol fluorescence relative to healthy controls. Dots represent individual patients, bars represent median, and whiskers represent the range. (G) Probability of nosocomial infection-free survival of patients with COVID-19 ARDS (n = 22) and patients with non-COVID ARDS (n = 10) from ICU admission (day 0) to day 30. P = 0.2091 by log-rank test.