Pharmacological Modulation of Neutrophil Extracellular Traps Reverses Thrombotic Stroke tPA (Tissue-Type Plasminogen Activator) Resistance
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2019-07-16
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Background and Purpose—Recanalization of the occluded artery is a primary goal in stroke treatment. Unfortunately,
endovascular treatment is not always available, and tPA (tissue-type plasminogen activator) therapy is limited by its
narrow therapeutic window; importantly, the rate of early arterial recanalization after tPA administration is low, especially
for platelet-rich thrombi. The mechanisms for this tPA resistance are not well known. Since neutrophil extracellular traps
(NETs) have been implicated in this setting, our aim was to study whether NET pharmacological modulation can reverse
tPA resistance and the role of TLR4 (Toll-like receptor 4), previously related to NET formation, in thrombosis.
Methods—To this goal, we have used a mouse photothrombotic stroke model, which produces a fibrin-free thrombus
composed primarily of aggregated platelets and thrombi obtained from human stroke patients.
Results—Our results demonstrate that (1) administration of DNase-I, which promotes NETs lysis, but not of tPA, recanalizes
the occluded vessel improving photothrombotic stroke outcome; (2) a preventive treatment with Cl-amidine, impeding NET
formation, completely precludes thrombotic occlusion; (3) platelet TLR4 mediates NET formation after photothrombotic
stroke; and (4) ex vivo fresh platelet-rich thrombi from ischemic stroke patients are effectively lysed by DNase-I.
Conclusions—Hence, our data open new avenues for recanalization of platelet-rich thrombi after stroke, especially to
overcome tPA resistance.