A primate-specific short GluN2A-NMDA receptor isoform is expressed in the human brain

Hannah Warming; Chrysia-Maria Pegasiou; Aleksandra P. Pitera; Hanna Kariis; Steven D. Houghton; Ksenia Kurbatskaya; Aminul Ahmed; Paul Grundy; Girish Vajramani; Diederik Bulters; Xavier Altafaj; Katrin Deinhardt; Mariana Vargas-Caballero

doi:10.1186/s13041-019-0485-9

Molecular Brain (Jul 2019)

A primate-specific short GluN2A-NMDA receptor isoform is expressed in the human brain

Hannah Warming,
Chrysia-Maria Pegasiou,
Aleksandra P. Pitera,
Hanna Kariis,
Steven D. Houghton,
Ksenia Kurbatskaya,
Aminul Ahmed,
Paul Grundy,
Girish Vajramani,
Diederik Bulters,
Xavier Altafaj,
Katrin Deinhardt,
Mariana Vargas-Caballero

Affiliations

Hannah Warming: School of Biological Sciences, University of Southampton
Chrysia-Maria Pegasiou: School of Biological Sciences, University of Southampton
Aleksandra P. Pitera: School of Biological Sciences, University of Southampton
Hanna Kariis: School of Biological Sciences, University of Southampton
Steven D. Houghton: School of Biological Sciences, University of Southampton
Ksenia Kurbatskaya: School of Biological Sciences, University of Southampton
Aminul Ahmed: Wessex Neurological Centre, University Hospital Southampton, University of Southampton
Paul Grundy: Wessex Neurological Centre, University Hospital Southampton, University of Southampton
Girish Vajramani: School of Biological Sciences, University of Southampton
Diederik Bulters: School of Biological Sciences, University of Southampton
Xavier Altafaj: Neuropharmacology Unit, Bellvitge Biomedical Research Institute (IDIBELL), L’Hospitalet de Llobregat
Katrin Deinhardt: School of Biological Sciences, University of Southampton
Mariana Vargas-Caballero: School of Biological Sciences, University of Southampton

DOI: https://doi.org/10.1186/s13041-019-0485-9
Journal volume & issue: Vol. 12, no. 1
pp. 1 – 8

Abstract

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Abstract Glutamate receptors of the N-methyl-D-aspartate (NMDA) family are coincident detectors of pre- and postsynaptic activity, allowing Ca2+ influx into neurons. These properties are central to neurological disease mechanisms and are proposed to be the basis of associative learning and memory. In addition to the well-characterised canonical GluN2A NMDAR isoform, large-scale open reading frames in human tissues had suggested the expression of a primate-specific short GluN2A isoform referred to as GluN2A-S. Here, we confirm the expression of both GluN2A transcripts in human and primate but not rodent brain tissue, and show that they are translated to two corresponding GluN2A proteins present in human brain. Furthermore, we demonstrate that recombinant GluN2A-S co-assembles with the obligatory NMDAR subunit GluN1 to form functional NMDA receptors. These findings suggest a more complex NMDAR repertoire in human brain than previously thought.

Published in Molecular Brain

ISSN: 1756-6606 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Neurosciences. Biological psychiatry. Neuropsychiatry: Neurology. Diseases of the nervous system
Website: https://molecularbrain.biomedcentral.com/

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Abstract

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