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Dimethyl fumarate and 4-octyl itaconate are anticoagulants that suppress Tissue Factor in macrophages via inhibition of Type I Interferon

Author

Listed:
  • Tristram A. J. Ryan

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Alexander Hooftman

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Aisling M. Rehill

    (RCSI University of Medicine and Health Sciences)

  • Matt D. Johansen

    (Centenary Institute and University of Technology Sydney, Faculty of Science)

  • Eóin C. O’ Brien

    (School of Biochemistry and Immunology, Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Juliana E. Toller-Kawahisa

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Mieszko M. Wilk

    (Trinity Biomedical Sciences Institute, Trinity College Dublin
    Jagiellonian University)

  • Emily A. Day

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Hauke J. Weiss

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Pourya Sarvari

    (German Center for Lung Research (DZL), Faculty of Medicine, Justus Liebig University)

  • Emilio G. Vozza

    (School of Biochemistry and Immunology, Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Fabian Schramm

    (German Center for Lung Research (DZL), Faculty of Medicine, Justus Liebig University)

  • Christian G. Peace

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Alessia Zotta

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Stefan Miemczyk

    (Centenary Institute and University of Technology Sydney, Faculty of Science)

  • Christina Nalkurthi

    (Centenary Institute and University of Technology Sydney, Faculty of Science)

  • Nicole G. Hansbro

    (Centenary Institute and University of Technology Sydney, Faculty of Science)

  • Gavin McManus

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Laura O’Doherty

    (St. James’s Hospital
    St. James’s Hospital
    School of Medicine, Trinity Translational Medicine Institute, Trinity College Dublin)

  • Siobhan Gargan

    (School of Medicine, Trinity Translational Medicine Institute, Trinity College Dublin)

  • Aideen Long

    (School of Medicine, Trinity Translational Medicine Institute, Trinity College Dublin)

  • Jean Dunne

    (St James’s Hospital)

  • Clíona Ní Cheallaigh

    (St. James’s Hospital
    School of Medicine, Trinity Translational Medicine Institute, Trinity College Dublin)

  • Niall Conlon

    (St. James’s Hospital
    School of Medicine, Trinity Translational Medicine Institute, Trinity College Dublin
    St James’s Hospital)

  • Michael Carty

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Padraic G. Fallon

    (School of Medicine, Trinity Translational Medicine Institute, Trinity College Dublin
    Trinity Biomedical Sciences Institute, Trinity College)

  • Kingston H. G. Mills

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Emma M. Creagh

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • James S. O’ Donnell

    (RCSI University of Medicine and Health Sciences)

  • Paul J. Hertzog

    (Hudson Institute of Medical Research
    Monash University)

  • Philip M. Hansbro

    (Centenary Institute and University of Technology Sydney, Faculty of Science)

  • Rachel M. McLoughlin

    (School of Biochemistry and Immunology, Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Małgorzata Wygrecka

    (German Center for Lung Research (DZL), Faculty of Medicine, Justus Liebig University)

  • Roger J. S. Preston

    (RCSI University of Medicine and Health Sciences)

  • Zbigniew Zasłona

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

  • Luke A. J. O’Neill

    (Trinity Biomedical Sciences Institute, Trinity College Dublin)

Abstract

Excessive inflammation-associated coagulation is a feature of infectious diseases, occurring in such conditions as bacterial sepsis and COVID-19. It can lead to disseminated intravascular coagulation, one of the leading causes of mortality worldwide. Recently, type I interferon (IFN) signaling has been shown to be required for tissue factor (TF; gene name F3) release from macrophages, a critical initiator of coagulation, providing an important mechanistic link between innate immunity and coagulation. The mechanism of release involves type I IFN-induced caspase-11 which promotes macrophage pyroptosis. Here we find that F3 is a type I IFN-stimulated gene. Furthermore, F3 induction by lipopolysaccharide (LPS) is inhibited by the anti-inflammatory agents dimethyl fumarate (DMF) and 4-octyl itaconate (4-OI). Mechanistically, inhibition of F3 by DMF and 4-OI involves suppression of Ifnb1 expression. Additionally, they block type I IFN- and caspase-11-mediated macrophage pyroptosis, and subsequent TF release. Thereby, DMF and 4-OI inhibit TF-dependent thrombin generation. In vivo, DMF and 4-OI suppress TF-dependent thrombin generation, pulmonary thromboinflammation, and lethality induced by LPS, E. coli, and S. aureus, with 4-OI additionally attenuating inflammation-associated coagulation in a model of SARS-CoV-2 infection. Our results identify the clinically approved drug DMF and the pre-clinical tool compound 4-OI as anticoagulants that inhibit TF-mediated coagulopathy via inhibition of the macrophage type I IFN-TF axis.

Suggested Citation

  • Tristram A. J. Ryan & Alexander Hooftman & Aisling M. Rehill & Matt D. Johansen & Eóin C. O’ Brien & Juliana E. Toller-Kawahisa & Mieszko M. Wilk & Emily A. Day & Hauke J. Weiss & Pourya Sarvari & Emi, 2023. "Dimethyl fumarate and 4-octyl itaconate are anticoagulants that suppress Tissue Factor in macrophages via inhibition of Type I Interferon," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-39174-1
    DOI: 10.1038/s41467-023-39174-1
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    References listed on IDEAS

    as
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