Functional proteomic profiling links deficient DNA clearance to mortality in patients with severe COVID-19 pneumonia

Venizelos Papayannopoulos; Dennis Hoving; Spyros Vernardis; Martha Tin; Vadim Demichev; Elisa Theresa Helbig; Lena Lippert; Klaus Stahl; Marianna Ioannou; Mia I Temkin; Matthew White; Helena Radbruch; Jana Ihlow; David Horst; Scott T Chiesa; John E Deanfield; Sascha David; Christian Bode; Florian Kurth; Markus Ralser; Iker Valle Aramburu

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Functional proteomic profiling links deficient DNA clearance to mortality in patients with severe COVID-19 pneumonia

Venizelos Papayannopoulos; Dennis Hoving; Spyros Vernardis; Martha Tin; Vadim Demichev; Elisa Theresa Helbig; Lena Lippert; Klaus Stahl; Marianna Ioannou; Mia I Temkin; Matthew White; Helena Radbruch; Jana Ihlow; David Horst; Scott T Chiesa; John E Deanfield; Sascha David; Christian Bode; Florian Kurth; Markus Ralser; Iker Valle Aramburu.

Affiliation

Venizelos Papayannopoulos; The Francis Crick Institute
Dennis Hoving; The Francis Crick Institute, Antimicrobial Defence Laboratory, London, United Kingdom.
Spyros Vernardis; The Francis Crick Institute, Molecular Biology of Metabolism Laboratory, London, United Kingdom.
Martha Tin; The Francis Crick Institute, Antimicrobial Defence Laboratory, London, United Kingdom.
Vadim Demichev; The Francis Crick Institute, Molecular Biology of Metabolism Laboratory, London, United Kingdom.
Elisa Theresa Helbig; Charité-Universitätsmedizin Berlin, Department of Infectious Diseases and Respiratory Medicine, Berlin, Germany.
Lena Lippert; Charité-Universitätsmedizin Berlin, Department of Infectious Diseases and Respiratory Medicine, Berlin, Germany.
Klaus Stahl; Department of Gastroenterology, Hepatology and Endocrinology, Medical School Hannover, Hannover.
Marianna Ioannou; The Francis Crick Institute, Antimicrobial Defence Laboratory, London, United Kingdom.
Mia I Temkin; The Francis Crick Institute, Antimicrobial Defence Laboratory, London, United Kingdom.
Matthew White; The Francis Crick Institute, Antimicrobial Defence Laboratory, London, United Kingdom.
Helena Radbruch; Charité-University of Medicine
Jana Ihlow; Charité-Universitätsmedizin Berlin
David Horst; Charité-Universitätsmedizin Berlin
Scott T Chiesa; University College London
John E Deanfield; Institute of Cardiovascular Science, University College London, London, UK
Sascha David; Institute for Intensive Care Medicine, University Hospital Zurich, Zurich, Switzerland.
Christian Bode; Department of Anaesthesiology and Critical Care, University Hospital Bonn, Bonn, Germany
Florian Kurth; Charité-Universistätsmedizin Berlin
Markus Ralser; Charité-Universitätsmedizin, Department of Biochemistry, 10117 Berlin, Germany.
Iker Valle Aramburu; The Francis Crick Institute, Antimicrobial Defence Laboratory, London, United Kingdom.

Preprint in English | medRxiv | ID: ppmedrxiv-22269616

ABSTRACT

ABSTRACT

Hyperinflammation, coagulopathy and immune dysfunction are prominent in patients with severe infections. Extracellular chromatin clearance by plasma DNases suppresses such pathologies in mice but whether severe infection interferes with these pathways is unclear. Here, we show that patients with severe SARS-CoV-2 infection or microbial sepsis exhibit low extracellular DNA clearance capacity associated with the release of the DNase inhibitor actin. Unlike naked DNA degradation (DNase), neutrophil extracellular trap degradation (NETase) was insensitive to G-actin, indicating distinct underlying mechanisms. Activity-based proteomic profiling of severely ill SARS-CoV-2 patient plasma revealed that patients with high NETase and DNase activities exhibited 18-fold higher survival compared to patients with low activity proteomic profiles. Remarkably, low DNA clearance capacity was also prominent in healthy individuals with chronic inflammation, suggesting that pre-existing inflammatory conditions may increase the risk for mortality upon infection. Hence, functional proteomic profiling illustrates that non-redundant DNA clearance activities protect critically ill patients from mortality, uncovering protein combinations that can accurately predict mortality in critically ill patients.

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Full text: Available Collection: Preprints Database: medRxiv Type of study: Prognostic study Language: English Year: 2022 Document type: Preprint

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Full text: Available Collection: Preprints Database: medRxiv Type of study: Prognostic study Language: English Year: 2022 Document type: Preprint