• Neurobiology of disease · Jan 2019

    NMDA receptor GluN2D subunit participates to levodopa-induced dyskinesia pathophysiology.

    • Manuela Mellone, Elisa Zianni, Jennifer Stanic, Federica Campanelli, Gioia Marino, Veronica Ghiglieri, Annalisa Longhi, Marie-Laure Thiolat, Qin Li, Paolo Calabresi, Erwan Bezard, Barbara Picconi, Monica Di Luca, and Fabrizio Gardoni.
    • Dipartimento di Scienze Farmacologiche e Biomolecolari (DiSFeB), Università degli Studi di Milano - La Statale, 20133 Milano, Italy.
    • Neurobiol. Dis. 2019 Jan 1; 121: 338-349.

    AbstractIn the striatum, specific N-methyl-d-aspartate receptor (NMDAR) subtypes are found in different neuronal cells. Spiny projection neurons (SPNs) are characterized by NMDARs expressing GluN2A and GluN2B subunits, while GluN2D is exclusively detected in striatal cholinergic interneurons (ChIs). In Parkinson's disease (PD), dopamine depletion and prolonged treatment with levodopa (L-DOPA) trigger adaptive changes in the glutamatergic transmission from the cortex to the striatum, also resulting in the aberrant function of striatal NMDARs. While modifications of GluN2A- and GluN2B-NMDARs in SPNs have been extensively documented, only few studies report GluN2D dysfunction in PD and no data are available in L-DOPA-induced dyskinesia (LID). Here we investigate the contribution of a specific NMDAR subtype (GluN2D-NMDAR) to PD and LID, and whether this receptor could represent a candidate for future pharmacological interventions. Our results show that GluN2D synaptic abundance is selectively augmented in the striatum of L-DOPA-treated male parkinsonian rats displaying a dyskinetic phenotype. This event is associated to a dramatic increase in GluN2D binding to the postsynaptic protein scaffold PSD-95. Moreover, immunohistochemistry and electrophysiology experiments reveal that GluN2D-NMDARs are expressed not only by striatal ChIs but also by SPNs in dyskinetic rats. Notably, in vivo treatment with a well-characterized GluN2D antagonist ameliorates the severity of established dyskinesia in L-DOPA-treated animals. Our findings support a role for GluN2D-NMDARs in LID, and they confirm that cell-type and subunit specific modifications of NMDARs underlie the pathophysiology of LID.Copyright © 2018 Elsevier Inc. All rights reserved.

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