BACKGROUND: Increasing evidence implicates both platelets and neutrophils in the formation, stabilization, and growth of peripheral and coronary thrombi. Neutrophil extracellular traps (NETs) play a key role. The early events in the deregulated cross-talk between platelets and neutrophils are poorly characterized. OBJECTIVES: To identify at the molecular level the mechanism through which platelets induce the generation of NETs in sterile conditions. PATIENTS/ METHODS: The presence of NETs was determined in 26 thrombi from patients with acute myocardial infarction by immunohistochemistry and immunofluorescence and markers of NETs assessed in the plasma. In vitro NET generation was studied in static and in physiological flow conditions. RESULTS: Coronary thrombi mainly consist of activated platelets, neutrophils, and NETs in close proximity of platelets. Activated platelets commit neutrophils to NET generation. The event abates in the presence of competitive antagonists of the high mobility group box 1 (HMGB1) protein. Hmgb1(-/-) platelets fail to elicit NETs, whereas the HMGB1 alone commits neutrophils to NET generation. Integrity of the HMGB1 receptor, Receptor for Advanced Glycation End products (RAGE), is required for NET formation, as assessed using pharmacologic and genetic tools. Exposure to HMGB1 prevents depletion of mitochondrial potential, induces autophagosome formation, and prolongs neutrophil survival. These metabolic effects are caused by the activation of autophagy. Blockade of the autophagic flux reverts platelet HMGB1-elicited NET generation. CONCLUSIONS: Activated platelets present HMGB1 to neutrophils and commit them to autophagy and NET generation. This chain of events may be responsible for some types of thromboinflammatory lesions and indicates novel paths for molecular intervention.
BACKGROUND: Increasing evidence implicates both platelets and neutrophils in the formation, stabilization, and growth of peripheral and coronary thrombi. Neutrophil extracellular traps (NETs) play a key role. The early events in the deregulated cross-talk between platelets and neutrophils are poorly characterized. OBJECTIVES: To identify at the molecular level the mechanism through which platelets induce the generation of NETs in sterile conditions. PATIENTS/ METHODS: The presence of NETs was determined in 26 thrombi from patients with acute myocardial infarction by immunohistochemistry and immunofluorescence and markers of NETs assessed in the plasma. In vitro NET generation was studied in static and in physiological flow conditions. RESULTS:Coronary thrombi mainly consist of activated platelets, neutrophils, and NETs in close proximity of platelets. Activated platelets commit neutrophils to NET generation. The event abates in the presence of competitive antagonists of the high mobility group box 1 (HMGB1) protein. Hmgb1(-/-) platelets fail to elicit NETs, whereas the HMGB1 alone commits neutrophils to NET generation. Integrity of the HMGB1 receptor, Receptor for Advanced Glycation End products (RAGE), is required for NET formation, as assessed using pharmacologic and genetic tools. Exposure to HMGB1 prevents depletion of mitochondrial potential, induces autophagosome formation, and prolongs neutrophil survival. These metabolic effects are caused by the activation of autophagy. Blockade of the autophagic flux reverts platelet HMGB1-elicited NET generation. CONCLUSIONS: Activated platelets present HMGB1 to neutrophils and commit them to autophagy and NET generation. This chain of events may be responsible for some types of thromboinflammatory lesions and indicates novel paths for molecular intervention.
Authors: Yiting Tang; Xin Zhao; Daniel Antoine; Xianzhong Xiao; Haichao Wang; Ulf Andersson; Timothy R Billiar; Kevin J Tracey; Ben Lu Journal: Antioxid Redox Signal Date: 2016-02-05 Impact factor: 8.401
Authors: Petrus Linge; Paul R Fortin; Christian Lood; Anders A Bengtsson; Eric Boilard Journal: Nat Rev Rheumatol Date: 2018-03-21 Impact factor: 20.543
Authors: Konstantin Stark; Vanessa Philippi; Sven Stockhausen; Johanna Busse; Antonella Antonelli; Meike Miller; Irene Schubert; Parandis Hoseinpour; Sue Chandraratne; Marie-Luise von Brühl; Florian Gaertner; Michael Lorenz; Alessandra Agresti; Raffaele Coletti; Daniel J Antoine; Ralf Heermann; Kirsten Jung; Sven Reese; Iina Laitinen; Markus Schwaiger; Axel Walch; Markus Sperandio; Peter P Nawroth; Christoph Reinhardt; Sven Jäckel; Marco E Bianchi; Steffen Massberg Journal: Blood Date: 2016-08-29 Impact factor: 22.113