Introduction: TRPM2 channels have been suggested to play a role in ischemic neuronal injury, specifically in males. A major hindrance to TRPM2 research has been the lack of specific TRPM2 inhibitors. The current study characterized the specificity and neuroprotective efficacy of a novel TRPM2 inhibitor.
Methods: Fluorescent calcium imaging (Fluo5F) was used to determine inhibitor efficacy of the TRPM2 peptide inhibitor (tat-M2NX) in HEK293 cells stably expressing hTRPM2. Adult (2-3months) and aged (18-20months) mice were subjected to 60min middle cerebral artery occlusion (MCAO) and injected with tat-M2NX, control scrambled peptide (tat-SCR) or clotrimazole (CTZ) either 20min prior or 3h after reperfusion. Infarct size was assessed using TTC staining.
Results: TRPM2 inhibition by tat-M2NX was observed by decreased Ca(2+) influx following H2O2 exposure human TRPM2 expressing cells. Male mice pre-treated with tat-M2NX had smaller infarct volume compared to tat-SCR. No effect of tat-M2NX on infarct size was observed in female mice. Importantly, male TRPM2(-/-) mice were not further protected by tat-M2NX, demonstrating selectivity of tat-M2NX. Administration of tat-M2NX 3h after reperfusion provided significant protection to males when analyzed at 24h or 4days after MCAO. Finally, we observed that tat-M2NX reduced ischemic injury in aged male mice.
Conclusions: These data demonstrate the development of a new peptide inhibitor of TRPM2 channels that provides protection from ischemic stroke in young adult and aged male animals with a clinically relevant therapeutic window.
Keywords: Aging; Cerebral ischemia; Experimental stroke; Sex; TRPM2 channel.
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