TY - JOUR
T1 - DNA-sensing inflammasomes cause recurrent atherosclerotic stroke
AU - DEMDAS Study Group
AU - Cao, Jiayu
AU - Roth, Stefan
AU - Zhang, Sijia
AU - Kopczak, Anna
AU - Mami, Samira
AU - Asare, Yaw
AU - Georgakis, Marios K.
AU - Messerer, Denise
AU - Horn, Amit
AU - Shemer, Ruth
AU - Jacqmarcq, Charlene
AU - Picot, Audrey
AU - Green, Jack P.
AU - Schlegl, Christina
AU - Li, Xinghai
AU - Tomas, Lukas
AU - Dutsch, Alexander
AU - Liman, Thomas G.
AU - Endres, Matthias
AU - Wernsdorf, Saskia R.
AU - Fürle, Christina
AU - Carofiglio, Olga
AU - Zhu, Jie
AU - Brough, David
AU - Hornung, Veit
AU - Dichgans, Martin
AU - Vivien, Denis
AU - Schulz, Christian
AU - Dor, Yuval
AU - Tiedt, Steffen
AU - Sager, Hendrik B.
AU - Grosse, Gerrit M.
AU - Liesz, Arthur
AU - Dichgans, Martin
AU - Endres, Matthias
AU - Georgakis, Marios K.
AU - Liman, Thomas G.
AU - Petzold, Gabor
AU - Spottke, Annika
AU - Wunderlich, Silke
AU - Zerr, Inga
N1 - Publisher Copyright:
© The Author(s) 2024.
PY - 2024
Y1 - 2024
N2 - The risk of early recurrent events after stroke remains high despite currently established secondary prevention strategies1. Risk is particularly high in patients with atherosclerosis, with more than 10% of patients experiencing early recurrent events1,2. However, despite the enormous medical burden of this clinical phenomenon, the underlying mechanisms leading to increased vascular risk and recurrent stroke are largely unknown. Here, using a novel mouse model of stroke-induced recurrent ischaemia, we show that stroke leads to activation of the AIM2 inflammasome in vulnerable atherosclerotic plaques via an increase of circulating cell-free DNA. Enhanced plaque inflammation post-stroke results in plaque destabilization and atherothrombosis, finally leading to arterioarterial embolism and recurrent stroke within days after the index stroke. We confirm key steps of plaque destabilization also after experimental myocardial infarction and in carotid artery plaque samples from patients with acute stroke. Rapid neutrophil NETosis was identified as the main source of cell-free DNA after stroke and NET–DNA as the causative agent leading to AIM2 inflammasome activation. Neutralization of cell-free DNA by DNase treatment or inhibition of inflammasome activation reduced the rate of stroke recurrence after experimental stroke. Our findings present an explanation for the high recurrence rate after incident ischaemic events in patients with atherosclerosis. The detailed mechanisms uncovered here provide clinically uncharted therapeutic targets for which we show high efficacy to prevent recurrent events. Targeting DNA-mediated inflammasome activation after remote tissue injury represents a promising avenue for further clinical development in the prevention of early recurrent events.
AB - The risk of early recurrent events after stroke remains high despite currently established secondary prevention strategies1. Risk is particularly high in patients with atherosclerosis, with more than 10% of patients experiencing early recurrent events1,2. However, despite the enormous medical burden of this clinical phenomenon, the underlying mechanisms leading to increased vascular risk and recurrent stroke are largely unknown. Here, using a novel mouse model of stroke-induced recurrent ischaemia, we show that stroke leads to activation of the AIM2 inflammasome in vulnerable atherosclerotic plaques via an increase of circulating cell-free DNA. Enhanced plaque inflammation post-stroke results in plaque destabilization and atherothrombosis, finally leading to arterioarterial embolism and recurrent stroke within days after the index stroke. We confirm key steps of plaque destabilization also after experimental myocardial infarction and in carotid artery plaque samples from patients with acute stroke. Rapid neutrophil NETosis was identified as the main source of cell-free DNA after stroke and NET–DNA as the causative agent leading to AIM2 inflammasome activation. Neutralization of cell-free DNA by DNase treatment or inhibition of inflammasome activation reduced the rate of stroke recurrence after experimental stroke. Our findings present an explanation for the high recurrence rate after incident ischaemic events in patients with atherosclerosis. The detailed mechanisms uncovered here provide clinically uncharted therapeutic targets for which we show high efficacy to prevent recurrent events. Targeting DNA-mediated inflammasome activation after remote tissue injury represents a promising avenue for further clinical development in the prevention of early recurrent events.
UR - http://www.scopus.com/inward/record.url?scp=85200882840&partnerID=8YFLogxK
U2 - 10.1038/s41586-024-07803-4
DO - 10.1038/s41586-024-07803-4
M3 - ???researchoutput.researchoutputtypes.contributiontojournal.article???
C2 - 39112714
AN - SCOPUS:85200882840
SN - 0028-0836
JO - Nature
JF - Nature
ER -