Projects per year
Abstract
Background Neutrophils are important in the pathophysiology of coronavirus disease 2019 (COVID-19), but the molecular changes contributing to altered neutrophil phenotypes following severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection are not fully understood. We used quantitative mass spectrometry-based proteomics to explore neutrophil phenotypes immediately following acute SARS-CoV-2 infection and during recovery. Methods Prospective observational study of hospitalised patients with PCR-confirmed SARS-CoV-2 infection (May to December 2020). Patients were enrolled within 96 h of admission, with longitudinal sampling up to 29 days. Control groups comprised non-COVID-19 acute lower respiratory tract infection (LRTI) and age-matched noninfected controls. Neutrophils were isolated from peripheral blood and analysed using mass spectrometry. COVID-19 severity and recovery were defined using the World Health Organization ordinal scale. Results Neutrophil proteomes from 84 COVID-19 patients were compared to those from 91 LRTI and 42 control participants. 5800 neutrophil proteins were identified, with >1700 proteins significantly changed in neutrophils from COVID-19 patients compared to noninfected controls. Neutrophils from COVID-19 patients initially all demonstrated a strong interferon signature, but this signature rapidly declined in patients with severe disease. Severe disease was associated with increased abundance of proteins involved in metabolism, immunosuppression and pattern recognition, while delayed recovery from COVID-19 was associated with decreased granule components and reduced abundance of metabolic proteins, chemokine and leukotriene receptors, integrins and inhibitory receptors. Conclusions SARS-CoV-2 infection results in the sustained presence of circulating neutrophils with distinct proteomes suggesting altered metabolic and immunosuppressive profiles and altered capacities to respond to migratory signals and cues from other immune cells, pathogens or cytokines.
Original language | English |
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Article number | 2300787 |
Number of pages | 15 |
Journal | The European respiratory journal |
Volume | 63 |
Issue number | 3 |
Early online date | 14 Dec 2023 |
DOIs | |
Publication status | Published - 7 Mar 2024 |
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Serine Kinase Pathways that Determine T Lymphocyte Activation and Cell Fate Choices (Principal Research Fellowship renewal)
Cantrell, D. (Investigator)
1/10/12 → 1/10/24
Project: Research
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A UK Underpinning Platform to Study Immunology and Immunopathology of COVID-19: The UK Coronovirus Immunology Consortium (University of Birmingham lead, Universities: Bristol, York, KCL, Cambridge, Manchester, Cardiff, Newcastle, Imperial College London, Edinburgh, Liverpool, Glasgow, Sheffield, Oxford, Bradford Teaching Hosp NHS, The Francis Crick Inst, Wellcome Trust Sanger Inst )
Cantrell, D. (Investigator)
20/08/20 → 19/08/21
Project: Research
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Rapid Research in Covid -19 Programme
Barrable, A. (Investigator), Belch, J. (Investigator), Boehnke, J. (Investigator), Booth, D. (Investigator), Brown, A. (Investigator), Cantrell, D. (Investigator), Chalmers, J. (Investigator), Coleman, S. (Investigator), Connell, D. (Investigator), Cuschieri, A. (Investigator), Dicker, A. (Investigator), Doney, A. (Investigator), Eftimie, R. (Investigator), Fang, M. (Investigator), Farre, A. (Investigator), Gamble, C. (Investigator), Howden, A. (Investigator), Krstajic, N. (Investigator), Lamond, A. (Investigator), Moraga Gonzalez, I. (Investigator), Palmer, C. (Investigator), Parcell, B. (Investigator), Pearson, E. (Investigator), Shoemark, A. (Investigator) & Sixsmith, J. (Investigator)
1/06/20 → 30/09/21
Project: Research
Equipment
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Fingerprints Proteomics Facility
Centre for Advanced Scientific TechnologiesFacility/equipment: Facility