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

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 b...

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Autores principales: Ryan, Tristram A. J., Hooftman, Alexander, Rehill, Aisling M., Johansen, Matt D., Brien, Eóin C. O’, Toller-Kawahisa, Juliana E., Wilk, Mieszko M., Day, Emily A., Weiss, Hauke J., Sarvari, Pourya, Vozza, Emilio G., Schramm, Fabian, Peace, Christian G., Zotta, Alessia, Miemczyk, Stefan, Nalkurthi, Christina, Hansbro, Nicole G., McManus, Gavin, O’Doherty, Laura, Gargan, Siobhan, Long, Aideen, Dunne, Jean, Cheallaigh, Clíona Ní, Conlon, Niall, Carty, Michael, Fallon, Padraic G., Mills, Kingston H. G., Creagh, Emma M., Donnell, James S. O’, Hertzog, Paul J., Hansbro, Philip M., McLoughlin, Rachel M., Wygrecka, Małgorzata, Preston, Roger J. S., Zasłona, Zbigniew, O’Neill, Luke A. J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10265568/
https://www.ncbi.nlm.nih.gov/pubmed/37316487
http://dx.doi.org/10.1038/s41467-023-39174-1
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author Ryan, Tristram A. J.
Hooftman, Alexander
Rehill, Aisling M.
Johansen, Matt D.
Brien, Eóin C. O’
Toller-Kawahisa, Juliana E.
Wilk, Mieszko M.
Day, Emily A.
Weiss, Hauke J.
Sarvari, Pourya
Vozza, Emilio G.
Schramm, Fabian
Peace, Christian G.
Zotta, Alessia
Miemczyk, Stefan
Nalkurthi, Christina
Hansbro, Nicole G.
McManus, Gavin
O’Doherty, Laura
Gargan, Siobhan
Long, Aideen
Dunne, Jean
Cheallaigh, Clíona Ní
Conlon, Niall
Carty, Michael
Fallon, Padraic G.
Mills, Kingston H. G.
Creagh, Emma M.
Donnell, James S. O’
Hertzog, Paul J.
Hansbro, Philip M.
McLoughlin, Rachel M.
Wygrecka, Małgorzata
Preston, Roger J. S.
Zasłona, Zbigniew
O’Neill, Luke A. J.
author_facet Ryan, Tristram A. J.
Hooftman, Alexander
Rehill, Aisling M.
Johansen, Matt D.
Brien, Eóin C. O’
Toller-Kawahisa, Juliana E.
Wilk, Mieszko M.
Day, Emily A.
Weiss, Hauke J.
Sarvari, Pourya
Vozza, Emilio G.
Schramm, Fabian
Peace, Christian G.
Zotta, Alessia
Miemczyk, Stefan
Nalkurthi, Christina
Hansbro, Nicole G.
McManus, Gavin
O’Doherty, Laura
Gargan, Siobhan
Long, Aideen
Dunne, Jean
Cheallaigh, Clíona Ní
Conlon, Niall
Carty, Michael
Fallon, Padraic G.
Mills, Kingston H. G.
Creagh, Emma M.
Donnell, James S. O’
Hertzog, Paul J.
Hansbro, Philip M.
McLoughlin, Rachel M.
Wygrecka, Małgorzata
Preston, Roger J. S.
Zasłona, Zbigniew
O’Neill, Luke A. J.
author_sort Ryan, Tristram A. J.
collection PubMed
description 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.
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spelling pubmed-102655682023-06-14 Dimethyl fumarate and 4-octyl itaconate are anticoagulants that suppress Tissue Factor in macrophages via inhibition of Type I Interferon Ryan, Tristram A. J. Hooftman, Alexander Rehill, Aisling M. Johansen, Matt D. Brien, Eóin C. O’ Toller-Kawahisa, Juliana E. Wilk, Mieszko M. Day, Emily A. Weiss, Hauke J. Sarvari, Pourya Vozza, Emilio G. Schramm, Fabian Peace, Christian G. Zotta, Alessia Miemczyk, Stefan Nalkurthi, Christina Hansbro, Nicole G. McManus, Gavin O’Doherty, Laura Gargan, Siobhan Long, Aideen Dunne, Jean Cheallaigh, Clíona Ní Conlon, Niall Carty, Michael Fallon, Padraic G. Mills, Kingston H. G. Creagh, Emma M. Donnell, James S. O’ Hertzog, Paul J. Hansbro, Philip M. McLoughlin, Rachel M. Wygrecka, Małgorzata Preston, Roger J. S. Zasłona, Zbigniew O’Neill, Luke A. J. Nat Commun Article 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. Nature Publishing Group UK 2023-06-14 /pmc/articles/PMC10265568/ /pubmed/37316487 http://dx.doi.org/10.1038/s41467-023-39174-1 Text en © The Author(s) 2023, corrected publication 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Ryan, Tristram A. J.
Hooftman, Alexander
Rehill, Aisling M.
Johansen, Matt D.
Brien, Eóin C. O’
Toller-Kawahisa, Juliana E.
Wilk, Mieszko M.
Day, Emily A.
Weiss, Hauke J.
Sarvari, Pourya
Vozza, Emilio G.
Schramm, Fabian
Peace, Christian G.
Zotta, Alessia
Miemczyk, Stefan
Nalkurthi, Christina
Hansbro, Nicole G.
McManus, Gavin
O’Doherty, Laura
Gargan, Siobhan
Long, Aideen
Dunne, Jean
Cheallaigh, Clíona Ní
Conlon, Niall
Carty, Michael
Fallon, Padraic G.
Mills, Kingston H. G.
Creagh, Emma M.
Donnell, James S. O’
Hertzog, Paul J.
Hansbro, Philip M.
McLoughlin, Rachel M.
Wygrecka, Małgorzata
Preston, Roger J. S.
Zasłona, Zbigniew
O’Neill, Luke A. J.
Dimethyl fumarate and 4-octyl itaconate are anticoagulants that suppress Tissue Factor in macrophages via inhibition of Type I Interferon
title Dimethyl fumarate and 4-octyl itaconate are anticoagulants that suppress Tissue Factor in macrophages via inhibition of Type I Interferon
title_full Dimethyl fumarate and 4-octyl itaconate are anticoagulants that suppress Tissue Factor in macrophages via inhibition of Type I Interferon
title_fullStr Dimethyl fumarate and 4-octyl itaconate are anticoagulants that suppress Tissue Factor in macrophages via inhibition of Type I Interferon
title_full_unstemmed Dimethyl fumarate and 4-octyl itaconate are anticoagulants that suppress Tissue Factor in macrophages via inhibition of Type I Interferon
title_short Dimethyl fumarate and 4-octyl itaconate are anticoagulants that suppress Tissue Factor in macrophages via inhibition of Type I Interferon
title_sort dimethyl fumarate and 4-octyl itaconate are anticoagulants that suppress tissue factor in macrophages via inhibition of type i interferon
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10265568/
https://www.ncbi.nlm.nih.gov/pubmed/37316487
http://dx.doi.org/10.1038/s41467-023-39174-1
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