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Pro-death NMDA receptor signaling is promoted by the GluN2B C-terminus independently of Dapk1.

eLife (2017-07-22)
Jamie McQueen, Tomás J Ryan, Sean McKay, Katie Marwick, Paul Baxter, Sarah M Carpanini, Thomas M Wishart, Thomas H Gillingwater, Jean C Manson, David J A Wyllie, Seth G N Grant, Barry W McColl, Noboru H Komiyama, Giles E Hardingham
RESUMEN

Aberrant NMDA receptor (NMDAR) activity contributes to several neurological disorders, but direct antagonism is poorly tolerated therapeutically. The GluN2B cytoplasmic C-terminal domain (CTD) represents an alternative therapeutic target since it potentiates excitotoxic signaling. The key GluN2B CTD-centred event in excitotoxicity is proposed to involve its phosphorylation at Ser-1303 by Dapk1, that is blocked by a neuroprotective cell-permeable peptide mimetic of the region. Contrary to this model, we find that excitotoxicity can proceed without increased Ser-1303 phosphorylation, and is unaffected by Dapk1 deficiency in vitro or following ischemia in vivo. Pharmacological analysis of the aforementioned neuroprotective peptide revealed that it acts in a sequence-independent manner as an open-channel NMDAR antagonist at or near the Mg2+ site, due to its high net positive charge. Thus, GluN2B-driven excitotoxic signaling can proceed independently of Dapk1 or altered Ser-1303 phosphorylation.

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Anti-phospho-NR2B (Ser1303) Antibody, Upstate®, from rabbit