NMDA receptors in axons: there's no coincidence

In the textbook view, N‐methyl‐d‐aspartate (NMDA) receptors are postsynaptically located detectors of coincident activity in Hebbian learning. However, controversial presynaptically located NMDA receptors (preNMDARs) have for decades been repeatedly reported in the literature. These preNMDARs have t...

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Published inThe Journal of physiology Vol. 599; no. 2; pp. 367 - 387
Main Authors Wong, Hovy Ho‐Wai, Rannio, Sabine, Jones, Victoria, Thomazeau, Aurore, Sjöström, P. Jesper
Format Journal Article
LanguageEnglish
Published England Wiley Subscription Services, Inc 01.01.2021
Wiley
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Summary:In the textbook view, N‐methyl‐d‐aspartate (NMDA) receptors are postsynaptically located detectors of coincident activity in Hebbian learning. However, controversial presynaptically located NMDA receptors (preNMDARs) have for decades been repeatedly reported in the literature. These preNMDARs have typically been implicated in the regulation of short‐term and long‐term plasticity, but precisely how they signal and what their functional roles are have been poorly understood. The functional roles of preNMDARs across several brain regions and different forms of plasticity can differ vastly, with recent discoveries showing key involvement of unusual subunit composition. Increasing evidence shows preNMDAR can signal through both ionotropic action by fluxing calcium and in metabotropic mode even in the presence of magnesium blockade. We argue that these unusual properties may explain why controversy has surrounded this receptor type. In addition, the expression of preNMDARs at some synapse types but not others can underlie synapse‐type‐specific plasticity. Last but not least, preNMDARs are emerging therapeutic targets in disease states such as neuropathic pain. We conclude that axonally located preNMDARs are required for specific purposes and do not end up there by accident. figure legend Presynaptic NMDARs (preNMDARs) are present in axons of specific synapses to regulate different forms of neurotransmission and synaptic plasticity. PreNMDARs can signal through both ionotropic mode by fluxing calcium and metabotropic mode without calcium influx.
Bibliography:This is an Editor's Choice article from the 15 January 2021 issue.
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ISSN:0022-3751
1469-7793
DOI:10.1113/JP280059