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Somatic Accumulation of GluA1-AMPA Receptors Leads to Selective Cognitive Impairments in Mice

by Burnashev, Nail , Jensen, Vidar , Zamanillo, Daniel , Bannerman, David M. , Sprengel, Rolf , Rozov, Andrey , Haj-Yasein, Nadia N. , Rawlins, J. Nicholas P. , Bus, Thorsten , Adelmann, Giselind , Grube, Isabel , Borchardt, Thilo

in AMPA receptors / Anatomy & physiology / Animal cognition / Animal welfare / Cognitive ability / Editing / Experiments / GluA1 / Hippocampus / Immunoglobulins / Life Sciences / Localization / Long-term potentiation / Memory / Morris water-maze / Mutation / Neurobiology / Neurons and Cognition / Neuroscience / Neurosciences / Physiology / Point mutation / Proteins / RNA-editing / Short term memory / Spatial discrimination learning / Spatial memory / Stem cells / α-Amino-3-hydroxy-5-methyl-4-isoxazole propionic acid / α-Amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptors

2018

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Somatic Accumulation of GluA1-AMPA Receptors Leads to Selective Cognitive Impairments in Mice

2018

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Somatic Accumulation of GluA1-AMPA Receptors Leads to Selective Cognitive Impairments in Mice

2018

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Journal Article

Somatic Accumulation of GluA1-AMPA Receptors Leads to Selective Cognitive Impairments in Mice

Burnashev, Nail,

Jensen, Vidar,

Zamanillo, Daniel,

Bannerman, David M.,

Sprengel, Rolf,

Rozov, Andrey,

Haj-Yasein, Nadia N.,

Rawlins, J. Nicholas P.,

Bus, Thorsten,

Adelmann, Giselind,

Grube, Isabel,

Borchardt, Thilo

2018

Overview

The GluA1 subunit of the L-α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAR) plays a crucial, but highly selective, role in cognitive function. Here we analyzed AMPAR expression, AMPAR distribution and spatial learning in mice ( ), expressing the \"trafficking compromised\" GluA1(Q600R) point mutation. Our analysis revealed somatic accumulation and reduction of GluA1(Q600R) and GluA2, but only slightly reduced CA1 synaptic localization in hippocampi of adult mice. These immunohistological changes were accompanied by a strong reduction of somatic AMPAR currents in CA1, and a reduction of plasticity (short-term and long-term potentiation, STP and LTP, respectively) in the CA1 subfield following tetanic and theta-burst stimulation. Nevertheless, spatial reference memory acquisition in the Morris water-maze and on an appetitive Y-maze task was unaffected in mice. In contrast, spatial working/short-term memory during both spontaneous and rewarded alternation tasks was dramatically impaired. These findings identify the GluA1(Q600R) mutation as a loss of function mutation that provides independent evidence for the selective role of GluA1 in the expression of short-term memory.

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Publisher

Frontiers Research Foundation,Frontiers Media,Frontiers Media S.A

Subject

AMPA receptors

/ Anatomy & physiology

/ Editing