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Whole-genome sequencing reveals host factors underlying critical COVID-19

Author

Listed:
  • Athanasios Kousathanas

    (Genomics England)

  • Erola Pairo-Castineira

    (University of Edinburgh
    University of Edinburgh, Western General Hospital)

  • Konrad Rawlik

    (University of Edinburgh)

  • Alex Stuckey

    (Genomics England)

  • Christopher A. Odhams

    (Genomics England)

  • Susan Walker

    (Genomics England)

  • Clark D. Russell

    (University of Edinburgh
    University of Edinburgh)

  • Tomas Malinauskas

    (University of Oxford)

  • Yang Wu

    (The University of Queensland)

  • Jonathan Millar

    (University of Edinburgh)

  • Xia Shen

    (Fudan University
    Usher Institute of Population Health Sciences and Informatics)

  • Katherine S. Elliott

    (University of Oxford)

  • Fiona Griffiths

    (University of Edinburgh)

  • Wilna Oosthuyzen

    (University of Edinburgh)

  • Kirstie Morrice

    (Western General Hospital, University of Edinburgh)

  • Sean Keating

    (Royal Infirmary of Edinburgh)

  • Bo Wang

    (University of Edinburgh)

  • Daniel Rhodes

    (Genomics England)

  • Lucija Klaric

    (University of Edinburgh, Western General Hospital)

  • Marie Zechner

    (University of Edinburgh)

  • Nick Parkinson

    (University of Edinburgh)

  • Afshan Siddiq

    (Genomics England)

  • Peter Goddard

    (Genomics England)

  • Sally Donovan

    (Genomics England)

  • David Maslove

    (Queen’s University and Kingston Health Sciences Centre)

  • Alistair Nichol

    (University College Dublin)

  • Malcolm G. Semple

    (University of Liverpool
    Alder Hey Children’s Hospital and University of Liverpool)

  • Tala Zainy

    (Genomics England)

  • Fiona Maleady-Crowe

    (Genomics England)

  • Linda Todd

    (Genomics England)

  • Shahla Salehi

    (Genomics England)

  • Julian Knight

    (University of Oxford)

  • Greg Elgar

    (Genomics England)

  • Georgia Chan

    (Genomics England)

  • Prabhu Arumugam

    (Genomics England)

  • Christine Patch

    (Genomics England)

  • Augusto Rendon

    (Genomics England)

  • David Bentley

    (Illumina Cambridge)

  • Clare Kingsley

    (Illumina Cambridge)

  • Jack A. Kosmicki

    (Regeneron Genetics Center)

  • Julie E. Horowitz

    (Regeneron Genetics Center)

  • Aris Baras

    (Regeneron Genetics Center)

  • Goncalo R. Abecasis

    (Regeneron Genetics Center)

  • Manuel A. R. Ferreira

    (Regeneron Genetics Center)

  • Anne Justice

    (Geisinger)

  • Tooraj Mirshahi

    (Geisinger)

  • Matthew Oetjens

    (Geisinger)

  • Daniel J. Rader

    (University of Pennsylvania)

  • Marylyn D. Ritchie

    (University of Pennsylvania)

  • Anurag Verma

    (University of Pennsylvania)

  • Tom A. Fowler

    (Genomics England
    Test and Trace, the Health Security Agency, Department of Health and Social Care)

  • Manu Shankar-Hari

    (Guy’s and St Thomas’ NHS Foundation Trust)

  • Charlotte Summers

    (University of Cambridge)

  • Charles Hinds

    (Queen Mary University of London)

  • Peter Horby

    (University of Oxford)

  • Lowell Ling

    (The Chinese University of Hong Kong, Prince of Wales Hospital)

  • Danny McAuley

    (Queen’s University Belfast
    Royal Victoria Hospital)

  • Hugh Montgomery

    (UCL Centre for Human Health and Performance)

  • Peter J. M. Openshaw

    (Imperial College London
    Imperial College Healthcare NHS Trust: London)

  • Paul Elliott

    (Imperial College)

  • Timothy Walsh

    (Royal Infirmary of Edinburgh)

  • Albert Tenesa

    (University of Edinburgh
    University of Edinburgh, Western General Hospital
    Usher Institute of Population Health Sciences and Informatics)

  • Angie Fawkes

    (Western General Hospital, University of Edinburgh)

  • Lee Murphy

    (Western General Hospital, University of Edinburgh)

  • Kathy Rowan

    (Intensive Care National Audit and Research Centre)

  • Chris P. Ponting

    (University of Edinburgh, Western General Hospital)

  • Veronique Vitart

    (University of Edinburgh, Western General Hospital)

  • James F. Wilson

    (University of Edinburgh, Western General Hospital
    Usher Institute of Population Health Sciences and Informatics)

  • Jian Yang

    (Westlake University
    Westlake Laboratory of Life Sciences and Biomedicine)

  • Andrew D. Bretherick

    (University of Edinburgh, Western General Hospital)

  • Richard H. Scott

    (Genomics England
    Great Ormond Street Hospital)

  • Sara Clohisey Hendry

    (University of Edinburgh)

  • Loukas Moutsianas

    (Genomics England)

  • Andy Law

    (University of Edinburgh)

  • Mark J. Caulfield

    (Genomics England
    Queen Mary University of London)

  • J. Kenneth Baillie

    (University of Edinburgh
    University of Edinburgh, Western General Hospital
    University of Edinburgh
    Royal Infirmary of Edinburgh)

Abstract

Critical COVID-19 is caused by immune-mediated inflammatory lung injury. Host genetic variation influences the development of illness requiring critical care1 or hospitalization2–4 after infection with SARS-CoV-2. The GenOMICC (Genetics of Mortality in Critical Care) study enables the comparison of genomes from individuals who are critically ill with those of population controls to find underlying disease mechanisms. Here we use whole-genome sequencing in 7,491 critically ill individuals compared with 48,400 controls to discover and replicate 23 independent variants that significantly predispose to critical COVID-19. We identify 16 new independent associations, including variants within genes that are involved in interferon signalling (IL10RB and PLSCR1), leucocyte differentiation (BCL11A) and blood-type antigen secretor status (FUT2). Using transcriptome-wide association and colocalization to infer the effect of gene expression on disease severity, we find evidence that implicates multiple genes—including reduced expression of a membrane flippase (ATP11A), and increased expression of a mucin (MUC1)—in critical disease. Mendelian randomization provides evidence in support of causal roles for myeloid cell adhesion molecules (SELE, ICAM5 and CD209) and the coagulation factor F8, all of which are potentially druggable targets. Our results are broadly consistent with a multi-component model of COVID-19 pathophysiology, in which at least two distinct mechanisms can predispose to life-threatening disease: failure to control viral replication; or an enhanced tendency towards pulmonary inflammation and intravascular coagulation. We show that comparison between cases of critical illness and population controls is highly efficient for the detection of therapeutically relevant mechanisms of disease.

Suggested Citation

  • Athanasios Kousathanas & Erola Pairo-Castineira & Konrad Rawlik & Alex Stuckey & Christopher A. Odhams & Susan Walker & Clark D. Russell & Tomas Malinauskas & Yang Wu & Jonathan Millar & Xia Shen & Ka, 2022. "Whole-genome sequencing reveals host factors underlying critical COVID-19," Nature, Nature, vol. 607(7917), pages 97-103, July.
  • Handle: RePEc:nat:nature:v:607:y:2022:i:7917:d:10.1038_s41586-022-04576-6
    DOI: 10.1038/s41586-022-04576-6
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    Cited by:

    1. Hideki Ogura & Jin Gohda & Xiuyuan Lu & Mizuki Yamamoto & Yoshio Takesue & Aoi Son & Sadayuki Doi & Kazuyuki Matsushita & Fumitaka Isobe & Yoshihiro Fukuda & Tai-Ping Huang & Takamasa Ueno & Naomi Mam, 2022. "Dysfunctional Sars-CoV-2-M protein-specific cytotoxic T lymphocytes in patients recovering from severe COVID-19," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    2. Junqing Xie & Yuliang Feng & Danielle Newby & Bang Zheng & Qi Feng & Albert Prats-Uribe & Chunxiao Li & Nicholas J. Wareham & R. Paredes & Daniel Prieto-Alhambra, 2023. "Genetic risk, adherence to healthy lifestyle and acute cardiovascular and thromboembolic complications following SARS-COV-2 infection," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    3. Michael X. Wang & Esther G. Lou & Nicolae Sapoval & Eddie Kim & Prashant Kalvapalle & Bryce Kille & R. A. Leo Elworth & Yunxi Liu & Yilei Fu & Lauren B. Stadler & Todd J. Treangen, 2024. "Olivar: towards automated variant aware primer design for multiplex tiled amplicon sequencing of pathogens," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
    4. Tomoko Nakanishi & Julian Willett & Yossi Farjoun & Richard J. Allen & Beatriz Guillen-Guio & Darin Adra & Sirui Zhou & J. Brent Richards, 2023. "Alternative splicing in lung influences COVID-19 severity and respiratory diseases," Nature Communications, Nature, vol. 14(1), pages 1-12, December.

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