Literature DB >> 31647878

Mitochondrial DNA Stimulates TLR9-Dependent Neutrophil Extracellular Trap Formation in Primary Graft Dysfunction.

Beñat Mallavia1, Fengchun Liu1, Emma Lefrançais1, Simon J Cleary1, Nicholas Kwaan1, Jennifer J Tian1, Mélia Magnen1, David M Sayah2, Allison Soong1, Joy Chen3, Rajan Saggar2, Michael Y Shino2, David J Ross2, Ariss Derhovanessian2, Joseph P Lynch2, Abbas Ardehali4, S Sam Weigt2, John A Belperio2, Steven R Hays1, Jeffrey A Golden1, Lorriana E Leard1, Rupal J Shah1, Mary Ellen Kleinhenz1, Aida Venado1, Jasleen Kukreja3, Jonathan P Singer1, Mark R Looney1,5.   

Abstract

The immune system is designed to robustly respond to pathogenic stimuli but to be tolerant to endogenous ligands to not trigger autoimmunity. Here, we studied an endogenous damage-associated molecular pattern, mitochondrial DNA (mtDNA), during primary graft dysfunction (PGD) after lung transplantation. We hypothesized that cell-free mtDNA released during lung ischemia-reperfusion triggers neutrophil extracellular trap (NET) formation via TLR9 signaling. We found that mtDNA increases in the BAL fluid of experimental PGD (prolonged cold ischemia followed by orthotopic lung transplantation) and not in control transplants with minimal warm ischemia. The adoptive transfer of mtDNA into the minimal warm ischemia graft immediately before lung anastomosis induces NET formation and lung injury. TLR9 deficiency in neutrophils prevents mtDNA-induced NETs, and TLR9 deficiency in either the lung donor or recipient decreases NET formation and lung injury in the PGD model. Compared with human lung transplant recipients without PGD, severe PGD was associated with high levels of BAL mtDNA and NETs, with evidence of relative deficiency in DNaseI. We conclude that mtDNA released during lung ischemia-reperfusion triggers TLR9-dependent NET formation and drives lung injury. In PGD, DNaseI therapy has a potential dual benefit of neutralizing a major NET trigger (mtDNA) in addition to dismantling pathogenic NETs.

Entities:  

Keywords:  TLR9; mitochondrial DNA; neutrophil extracellular traps; primary graft dysfunction

Mesh:

Substances:

Year:  2020        PMID: 31647878      PMCID: PMC7055700          DOI: 10.1165/rcmb.2019-0140OC

Source DB:  PubMed          Journal:  Am J Respir Cell Mol Biol        ISSN: 1044-1549            Impact factor:   6.914


  38 in total

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Authors:  David M Sayah; Beñat Mallavia; Fengchun Liu; Guadalupe Ortiz-Muñoz; Axelle Caudrillier; Ariss DerHovanessian; David J Ross; Joseph P Lynch; Rajan Saggar; Abbas Ardehali; Lorraine B Ware; Jason D Christie; John A Belperio; Mark R Looney
Journal:  Am J Respir Crit Care Med       Date:  2015-02-15       Impact factor: 21.405

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Authors:  Luc H Boudreau; Anne-Claire Duchez; Nathalie Cloutier; Denis Soulet; Nicolas Martin; James Bollinger; Alexandre Paré; Matthieu Rousseau; Gajendra S Naika; Tania Lévesque; Cynthia Laflamme; Geneviève Marcoux; Gérard Lambeau; Richard W Farndale; Marc Pouliot; Hind Hamzeh-Cognasse; Fabrice Cognasse; Olivier Garraud; Peter A Nigrovic; Helga Guderley; Steve Lacroix; Louis Thibault; John W Semple; Michael H Gelb; Eric Boilard
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Journal:  Front Immunol       Date:  2016-04-14       Impact factor: 7.561
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  24 in total

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Review 4.  Recent advances into the role of pattern recognition receptors in transplantation.

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Review 5.  Sterile inflammation in thoracic transplantation.

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Review 8.  Role of Mitochondria-Derived Danger Signals Released After Injury in Systemic Inflammation and Sepsis.

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9.  [Mechanism and material basis of Lianhua Qingwen capsule for improving clinical cure rate of COVID-19: a study based on network pharmacology and molecular docking technology].

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10.  Complement activation on endothelium initiates antibody-mediated acute lung injury.

Authors:  Simon J Cleary; Nicholas Kwaan; Jennifer J Tian; Daniel R Calabrese; Beñat Mallavia; Mélia Magnen; John R Greenland; Anatoly Urisman; Jonathan P Singer; Steven R Hays; Jasleen Kukreja; Ariel M Hay; Heather L Howie; Pearl Toy; Clifford A Lowell; Craig N Morrell; James C Zimring; Mark R Looney
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