Temporal dynamics of immediate early gene expression during cellular consolidation of spatial memory

The consolidation of newly acquired memories on a cellular level is thought to take place in the first few hours following learning. This process is dependent on de novo protein synthesis during this time, which ultimately leads to long-term structural and functional neuronal changes and the stabili...

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Veröffentlicht in:	Behavioural brain research 2017-06, Vol.327, p.44-53
Hauptverfasser:	Barry, Daniel N., Commins, Sean
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis of Variance Animals Brain - cytology Brain - metabolism Cellular consolidation Cytoskeletal Proteins - metabolism Early Growth Response Protein 1 - metabolism Genes, Immediate-Early Immediate early genes Immunohistochemistry Male Maze Learning - physiology Memory Memory Consolidation - physiology Nerve Tissue Proteins - metabolism Proto-Oncogene Proteins c-fos - metabolism Rats, Wistar Spatial Memory - physiology Spatial navigation Time Factors
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creator	Barry, Daniel N. Commins, Sean
description	The consolidation of newly acquired memories on a cellular level is thought to take place in the first few hours following learning. This process is dependent on de novo protein synthesis during this time, which ultimately leads to long-term structural and functional neuronal changes and the stabilisation of a memory trace. Immediate early genes (IEGs) are rapidly expressed in neurons following learning, and previous research has suggested more than one wave of IEG expression facilitates consolidation in the hours following learning. We analysed the expression of Zif268, c-Fos and Arc protein in a number of brain regions involved in spatial learning either 90min, 4h or 8h following training in the Morris water maze task. Consistent with the role of IEGs in the earliest stages of consolidation, a single wave of expression was observed in most brain regions at 90min, however a subsequent wave of expression was not observed at 8h. In fact, Zif268 expression was observed to fall below the levels of naïve controls at this time-point in the medial prefrontal and perirhinal cortices. This may be indicative of synaptic downscaling in these regions in the hours following learning, and an important marker of the consolidation of spatial memory.
doi_str_mv	10.1016/j.bbr.2017.03.019
format	Article
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This process is dependent on de novo protein synthesis during this time, which ultimately leads to long-term structural and functional neuronal changes and the stabilisation of a memory trace. Immediate early genes (IEGs) are rapidly expressed in neurons following learning, and previous research has suggested more than one wave of IEG expression facilitates consolidation in the hours following learning. We analysed the expression of Zif268, c-Fos and Arc protein in a number of brain regions involved in spatial learning either 90min, 4h or 8h following training in the Morris water maze task. Consistent with the role of IEGs in the earliest stages of consolidation, a single wave of expression was observed in most brain regions at 90min, however a subsequent wave of expression was not observed at 8h. In fact, Zif268 expression was observed to fall below the levels of naïve controls at this time-point in the medial prefrontal and perirhinal cortices. 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subjects	Analysis of Variance Animals Brain - cytology Brain - metabolism Cellular consolidation Cytoskeletal Proteins - metabolism Early Growth Response Protein 1 - metabolism Genes, Immediate-Early Immediate early genes Immunohistochemistry Male Maze Learning - physiology Memory Memory Consolidation - physiology Nerve Tissue Proteins - metabolism Proto-Oncogene Proteins c-fos - metabolism Rats, Wistar Spatial Memory - physiology Spatial navigation Time Factors
title	Temporal dynamics of immediate early gene expression during cellular consolidation of spatial memory
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