Abstract
Ca(2+)-regulated gene transcription is essential to diverse physiological processes, including the adaptive plasticity associated with learning. We found that basal synaptic input activates the NF-kappa B transcription factor by a pathway requiring the Ca(2+)/calmodulin-dependent kinase CaMKII and local submembranous Ca(2+) elevation. The p65:p50 NF-kappa B form is selectively localized at synapses; p65-deficient mice have no detectable synaptic NF-kappa B. Activated NF-kappa B moves to the nucleus and could directly transmute synaptic signals into altered gene expression. Mice lacking p65 show a selective learning deficit in the spatial version of the radial arm maze. These observations suggest that long-term changes to adult neuronal function caused by synaptic stimulation can be regulated by NF-kappa B nuclear translocation and gene activation.
Publication types
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Research Support, U.S. Gov't, P.H.S.
MeSH terms
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Active Transport, Cell Nucleus / genetics
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Animals
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Animals, Newborn
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Behavior, Animal / physiology*
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Calcium / metabolism
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Calcium Signaling / genetics
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Calcium-Calmodulin-Dependent Protein Kinase Type 2
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Calcium-Calmodulin-Dependent Protein Kinases / metabolism
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Cells, Cultured
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Hippocampus / cytology
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Hippocampus / drug effects
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Hippocampus / metabolism
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Mice
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NF-kappa B / genetics
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NF-kappa B / metabolism*
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Neurons / drug effects
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Neurons / metabolism*
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Recombinant Fusion Proteins / pharmacology
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Signal Transduction / genetics
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Synapses / drug effects
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Synapses / metabolism*
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Synaptic Membranes / genetics
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Synaptic Membranes / metabolism
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Synaptic Transmission / drug effects
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Synaptic Transmission / genetics*
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Synaptosomes
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Transcription Factor RelA
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Transcription Factors / deficiency
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Transcription Factors / genetics
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Transcription, Genetic / physiology
Substances
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NF-kappa B
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Recombinant Fusion Proteins
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Transcription Factor RelA
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Transcription Factors
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Calcium-Calmodulin-Dependent Protein Kinase Type 2
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Calcium-Calmodulin-Dependent Protein Kinases
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Calcium