d-Aspartate consumption selectively promotes intermediate-term spatial memory and the expression of hippocampal NMDA receptor subunits

d-Aspartate consumption selectively promotes intermediate-term spatial memory and the expression of hippocampal NMDA receptor subunits

d -Aspartate ( d -Asp) and d -serine ( d -Ser) have been proposed to promote early-phase LTP in vitro and to enhance spatial memory in vivo. Here, we investigated the behavioural effects of chronic consumption of d -Asp and d -Ser on spatial learning of mice together with the expression of NMDA rece...

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Bibliographic Details
Published in:Scientific reports Vol. 11; no. 1; p. 6166
Main Authors: Zachar, Gergely, Kemecsei, Róbert, Papp, Szilvia Márta, Wéber, Katalin, Kisparti, Tamás, Tyler, Teadora, Gáspár, Gábor, Balázsa, Tamás, Csillag, András
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 17-03-2021
Nature Publishing Group
Nature Portfolio
Subjects:
631/378/1595/1554
631/378/1595/3922
Animal memory
Cell proliferation
Cognitive ability
D-Serine
Doublecortin protein
Glutamic acid receptors (ionotropic)
Hippocampus
Humanities and Social Sciences
Memory
Morphometry
multidisciplinary
N-Methyl-D-aspartic acid receptors
Neural stem cells
Neurogenesis
Observational learning
Progenitor cells
Reversal learning
Science
Science (multidisciplinary)
Spatial discrimination learning
Spatial memory
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Summary:d -Aspartate ( d -Asp) and d -serine ( d -Ser) have been proposed to promote early-phase LTP in vitro and to enhance spatial memory in vivo. Here, we investigated the behavioural effects of chronic consumption of d -Asp and d -Ser on spatial learning of mice together with the expression of NMDA receptors. We also studied the alterations of neurogenesis by morphometric analysis of bromo-deoxyuridine incorporating and doublecortin expressing cells in the hippocampus. Our results specify a time period (3–4 h post-training), within which the animals exposed to d -Asp (but not d -Ser) show a more stable memory during retrieval. The cognitive improvement is due to elimination of transient bouts of destabilization and reconsolidation of memory, rather than to enhanced acquisition. d -Asp also protracted reversal learning probably due to reduced plasticity. Expression of GluN1 and GluN2A subunits was elevated in the hippocampus of d -Asp (but not d -Ser) treated mice. d -Asp or d -Ser did not alter the proliferation of neuronal progenitor cells in the hippocampus. The observed learning-related changes evoked by d -Asp are unlikely to be due to enhanced proliferation and recruitment of new neurones. Rather, they are likely associated with an upregulation of NMDA receptors, as well as a reorganization of receptor subunit assemblies in existing hippocampal/dentate neurons.
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ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-85360-w