Enhanced long-term potentiation and impaired learning in mice with mutant postsynaptic density-95 protein.

Migaud M; Charlesworth P; Dempster M; Webster LC; Watabe AM; Makhinson M; He Y; Ramsay MF; Morris RG; Morrison JH; O'Dell TJ; Grant SG

doi:10.1038/24790

Enhanced long-term potentiation and impaired learning in mice with mutant postsynaptic density-95 protein.

He Y ,

Affiliations

1. Centre for Genome Research, University of Edinburgh, UK.
Authors
Migaud M¹
(1 author)

ORCIDs linked to this article

Nature, 01 Dec 1998, 396(6710):433-439
https://doi.org/10.1038/24790 PMID: 9853749

A comment on this article appears in "Excitatory synapses. Is bigger better?" Nature. 1998 Dec 3;396(6710):414-5.

Abstract

Specific patterns of neuronal firing induce changes in synaptic strength that may contribute to learning and memory. If the postsynaptic NMDA (N-methyl-D-aspartate) receptors are blocked, long-term potentiation (LTP) and long-term depression (LTD) of synaptic transmission and the learning of spatial information are prevented. The NMDA receptor can bind a protein known as postsynaptic density-95 (PSD-95), which may regulate the localization of and/or signalling by the receptor. In mutant mice lacking PSD-95, the frequency function of NMDA-dependent LTP and LTD is shifted to produce strikingly enhanced LTP at different frequencies of synaptic stimulation. In keeping with neural-network models that incorporate bidirectional learning rules, this frequency shift is accompanied by severely impaired spatial learning. Synaptic NMDA-receptor currents, subunit expression, localization and synaptic morphology are all unaffected in the mutant mice. PSD-95 thus appears to be important in coupling the NMDA receptor to pathways that control bidirectional synaptic plasticity and learning.

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Enhanced long-term potentiation and impaired learning in mice with mutant postsynaptic density-95 protein.

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