BACKGROUND AND PURPOSE: Despite its fibrinolytic effect, tissue-type plasminogen activator (tPA) displays deleterious effects in the brain, including proexcitotoxicity, that can reduce the overall benefit from thrombolysis during stroke. We have proposed that tPA potentiates excitotoxicity by interacting with and cleaving the aminoterminal end of the NR1 subunit of N-methyl-d-aspartate receptors, leading to an increased calcium influx, Erk1/2 activation, and neurotoxicity. Because this mechanism is debated, our aim was to demonstrate its in vivo occurrence and relevance. Because tPA is released under ischemic conditions, we hypothesized that if it indeed processes NR1, then the released fragment should reactivate the immune system in animals that had been immunized long before with recombinant aminoterminal end of the NR1. This effect should be exacerbated in ischemic animals thrombolysed with recombinant tPA. METHODS: At a time when specific antibodies could not be detected any longer, mice previously vaccinated with recombinant aminoterminal end of the NR1 were subjected to thromboembolic stroke induced by injecting thrombin in the middle cerebral artery alone or with intravenous thrombolysis. RESULTS: Stroke performed 1 year after active immunization induced the reappearance of antibodies against the aminoterminal end of the NR1 in the plasma, an effect significantly increased when ischemia was followed by recombinant tPA-induced reperfusion. Moreover, immunization preventing the interaction of tPA with aminoterminal end of the NR1 reduced ischemic brain damages and extended the therapeutic window of tPA-induced thrombolysis. CONCLUSIONS: We demonstrate that the tPA-dependent interaction and cleavage of the NR1 subunit of N-methyl-d-aspartate receptors occurs in vivo after stroke and that this interaction is a relevant therapeutic target for stroke treatment.
BACKGROUND AND PURPOSE: Despite its fibrinolytic effect, tissue-type plasminogen activator (tPA) displays deleterious effects in the brain, including proexcitotoxicity, that can reduce the overall benefit from thrombolysis during stroke. We have proposed that tPA potentiates excitotoxicity by interacting with and cleaving the aminoterminal end of the NR1 subunit of N-methyl-d-aspartate receptors, leading to an increased calcium influx, Erk1/2 activation, and neurotoxicity. Because this mechanism is debated, our aim was to demonstrate its in vivo occurrence and relevance. Because tPA is released under ischemic conditions, we hypothesized that if it indeed processes NR1, then the released fragment should reactivate the immune system in animals that had been immunized long before with recombinant aminoterminal end of the NR1. This effect should be exacerbated in ischemic animals thrombolysed with recombinant tPA. METHODS: At a time when specific antibodies could not be detected any longer, mice previously vaccinated with recombinant aminoterminal end of the NR1 were subjected to thromboembolic stroke induced by injecting thrombin in the middle cerebral artery alone or with intravenous thrombolysis. RESULTS:Stroke performed 1 year after active immunization induced the reappearance of antibodies against the aminoterminal end of the NR1 in the plasma, an effect significantly increased when ischemia was followed by recombinant tPA-induced reperfusion. Moreover, immunization preventing the interaction of tPA with aminoterminal end of the NR1 reduced ischemic brain damages and extended the therapeutic window of tPA-induced thrombolysis. CONCLUSIONS: We demonstrate that the tPA-dependent interaction and cleavage of the NR1 subunit of N-methyl-d-aspartate receptors occurs in vivo after stroke and that this interaction is a relevant therapeutic target for stroke treatment.
Authors: Elisabetta Mantuano; Michael S Lam; Masataka Shibayama; W Marie Campana; Steven L Gonias Journal: J Cell Sci Date: 2015-08-13 Impact factor: 5.285
Authors: Elisabetta Mantuano; Pardis Azmoon; Coralie Brifault; Michael A Banki; Andrew S Gilder; Wendy M Campana; Steven L Gonias Journal: Blood Date: 2017-07-06 Impact factor: 22.113
Authors: Amandine Jullienne; Axel Montagne; Cyrille Orset; Flavie Lesept; David E Jane; Daniel T Monaghan; Eric Maubert; Denis Vivien; Carine Ali Journal: Mol Neurodegener Date: 2011-10-05 Impact factor: 14.195