1. Enhanced Odor Discrimination and Impaired Olfactory Memory by Spatially Controlled Switch of AMPA Receptors.
- Author
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Shimshek, Derya R, Bus, Thorsten, Kim, Jinhyun, Mihaljevic, Andre, Mack, Volker, Seeburg, Peter H, Sprengel, Rolf, and Schaefer, Andreas T
- Subjects
AMPA receptors ,OLFACTORY receptors ,OPERANT conditioning ,GENE expression ,OLFACTORY cortex ,MEMORY ,HIPPOCAMPUS (Brain) - Abstract
Genetic perturbations of α-amino-3-hydroxy-5-methyl-4-isoxazolepropionate receptors (AMPARs) are widely used to dissect molecular mechanisms of sensory coding, learning, and memory. In this study, we investigated the role of Ca
2+ -permeable AMPARs in olfactory behavior. AMPAR modification was obtained by depletion of the GluR-B subunit or expression of unedited GluR-B(Q), both leading to increased Ca2+ permeability of AMPARs. Mice with this functional AMPAR switch, specifically in forebrain, showed enhanced olfactory discrimination and more rapid learning in a go/no-go operant conditioning task. Olfactory memory, however, was dramatically impaired. GluR-B depletion in forebrain was ectopically variable ("mosaic") among individuals and strongly correlated with decreased olfactory memory in hippocampus and cortex. Accordingly, memory was rescued by transgenic GluR-B expression restricted to piriform cortex and hippocampus, while enhanced odor discrimination was independent of both GluR-B variability and transgenic GluR-B expression. Thus, correlated differences in behavior and levels of GluR-B expression allowed a mechanistic and spatial dissection of olfactory learning, discrimination, and memory capabilities. Genetic manipulation of AMPA receptors in mouse forebrain dissects specific contributions of AMPA receptor expression variation in piriform cortex and hippocampus to olfactory learning and memory, not discrimination. [ABSTRACT FROM AUTHOR]- Published
- 2005
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