bioRxiv 2025.03.28.646062
https://www.biorxiv.org/content/10.1101/2025.03.28.646062v1
Title: Neutrophil extracellular traps block endogenous and intravenous thrombolysis-induced fibrinolysis in large vessel occlusion acute ischemic stroke
Abstract
Background Intravenous thrombolysis (IVT) failure in acute ischemic stroke (AIS) due to large vessel occlusion (LVO) is frequent but its causes remain elusive. Several non-exclusive mechanisms have been proposed to explain IVT failure, including failed delivery of tPA and inhibition of its activity. We investigated whether biologically relevant intrathrombus concentrations of t-PA were achieved in failed IVT in patients with LVO AIS, and whether neutrophil extracellular traps (NETs) contributed to IVT failure.
Methods In this cohort study, a total of 205 thrombi from AIS patients with LVO were analyzed. 83 of these thrombi were compared for tPA content and 53 for their susceptibility to ex vivo thrombolysis according to IVT status. An additional subset of 69 AIS thrombi was used to decipher if and how NETs interfere with intrathrombus fibrinolysis.
Results AIS thrombi from IVT patients contained more tPA than those from no-IVT patients (0.209 vs 0.093 µg/mg of thrombus, p<0.0001). Plasminogen and tPA in AIS thrombi were found in association with fibrin and NETs. The ability of NETs to bind tPA and plasminogen, titrating them away from fibrin, was confirmed in a microfluidic model of thrombosis. While ex vivo addition of plasminogen did not cause lysis of either no-IVT or IVT thrombi, combining plasminogen with DNase 1 helped translate the increased tPA content of IVT thrombi into increased thrombolysis. We further show that DNase 1 enables tPA- and plasmin-mediated thrombolysis by eliminating fibrinolysis inhibitors from AIS thrombi.
Conclusions These results indicate that intrathrombus tPA concentrations reached in failed IVT bear a therapeutic potential that is however impaired by NETs, which favor intrathrombus retention of fibrinolysis inhibitors and compete with fibrin for tPA and plasminogen binding. Our results stress the interest of DNase 1 to enhance the efficacy of current IVT tPA regimens.
Product: RHB99201, Fibrin
