Affiliation:
1. Department of Neurology, Center for Translational Neuro‐ and Behavioral Science (C‐TNBS) University Hospital Essen Essen Germany
2. Department of Anaesthesiology University of Heidelberg Heidelberg Germany
3. Institute of Pharmacology University Hospital Essen Essen Germany
4. Department of Integrative Physiology Baylor College of Medicine Houston Texas USA
5. Department of Medicine and Research Center Montréal Heart Institute and Université de Montréal Montréal Canada
Abstract
Background and PurposeThrombo‐inflammation is a key feature of stroke pathophysiology and provides multiple candidate drug targets. Thrombin exerts coagulation‐independent actions via protease‐activated receptors (PAR), of which PAR1 has been implicated in stroke‐associated neuroinflammation. The role of PAR4 in this context is less clear. This study examined if the selective PAR4 antagonist ML354 provides neuroprotection in experimental stroke and explored the underlying mechanisms.Experimental ApproachMouse primary cortical neurons were exposed to oxygen–glucose deprivation (OGD) and simulated reperfusion ± ML354. For comparison, functional Ca2+‐imaging was performed upon acute stimulation with a PAR4 activating peptide or glutamate. Male mice underwent sham operation or transient middle cerebral artery occlusion (tMCAO), with ML354 or vehicle treatment beginning at recanalization. A subset of mice received a platelet‐depleting antibody. Stroke size and functional outcomes were assessed. Abundance of target genes, proteins, and cell markers was determined in cultured cells and tissues by qPCR, immunoblotting, and immunofluorescence.Key ResultsStroke up‐regulated PAR4 expression in cortical neurons in vitro and in vivo. OGD augments spontaneous and PAR4‐mediated neuronal activity; ML354 suppresses OGD‐induced neuronal excitotoxicity and apoptosis. ML354 applied in vivo after tMCAO reduced infarct size, apoptotic markers, macrophage accumulation, and interleukin‐1β expression. Platelet depletion did not affect infarct size in mice with tMCAO ± ML354.Conclusions and ImplicationsSelective PAR4 inhibition during reperfusion improves infarct size and neurological function after experimental stroke by blunting neuronal excitability, apoptosis, and local inflammation. PAR4 antagonists may provide additional neuroprotective benefits in patients with acute stroke beyond their canonical antiplatelet action.
Funder
Jürgen Manchot Stiftung
Deutsche Forschungsgemeinschaft