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Literature DB >> 19470651

Memory deficits are associated with impaired ability to modulate neuronal excitability in middle-aged mice.

Catherine C Kaczorowski¹, John F Disterhoft.

Abstract

Normal aging disrupts hippocampal neuroplasticity and learning and memory. Aging deficits were exposed in a subset (30%) of middle-aged mice that performed below criterion on a hippocampal-dependent contextual fear conditioning task. Basal neuronal excitability was comparable in middle-aged and young mice, but learning-related modulation of the post-burst afterhyperpolarization (AHP)--a general mechanism engaged during learning--was impaired in CA1 neurons from middle-aged weak learners. Thus, modulation of neuronal excitability is critical for retention of context fear in middle-aged mice. Disruption of AHP plasticity may contribute to contextual fear deficits in middle-aged mice--a model of age-associated cognitive decline (AACD).

Entities: Disease Gene Species

Mesh：

Year: 2009 PMID： 19470651 PMCID： PMC2704100 DOI： 10.1101/lm.1365609

Source DB: PubMed Journal: Learn Mem ISSN： 1072-0502 Impact factor: 2.460

58 in total

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57 in total

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Review 3. Learning to learn - intrinsic plasticity as a metaplasticity mechanism for memory formation.

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Review 4. Drugging the methylome: DNA methylation and memory.

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5. Differential effects and rates of normal aging in cerebellum and hippocampus.

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6. Intrinsic neuronal excitability is reversibly altered by a single experience in fear conditioning.

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7. Deletion of the L-type calcium channel Ca(V) 1.3 but not Ca(V) 1.2 results in a diminished sAHP in mouse CA1 pyramidal neurons.

Authors: Amy E Gamelli; Brandon C McKinney; Jessica A White; Geoffrey G Murphy
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