Literature DB >> 27701792

Active place avoidance is no more stressful than unreinforced exploration of a familiar environment.

Edith Lesburguères1, Fraser T Sparks1, Kally C O'Reilly1, André A Fenton1,2.   

Abstract

Training in the active place avoidance task changes hippocampus synaptic function, the dynamics of hippocampus local field potentials, place cell discharge, and active place avoidance memory is maintained by persistent PKMζ activity. The extent to which these changes reflect memory processes and/or stress responses is unknown. We designed a study to assess stress within the active place avoidance task by measuring serum corticosterone (CORT) at different stages of training. CORT levels did not differ between trained mice that learned to avoid the location of the mild foot shock, and untrained no-shock controls exposed to the same environment for the same amount of time. Yoked mice, that received unavoidable shocks in the same time sequence as the trained mice, had significantly higher CORT levels than mice in the trained and no-shock groups after the first trial. This increase in CORT disappeared by the fourth trial the following day, and levels of CORT for all groups matched that of home cage controls. The data demonstrate that place avoidance training is no more stressful than experiencing a familiar environment. We conclude that changes in neural function as a result of active place avoidance training are likely to reflect learning and memory processes rather than stress.
© 2016 Wiley Periodicals, Inc. © 2016 Wiley Periodicals, Inc.

Entities:  

Keywords:  learning; memory; navigation; spatial cognition; stress

Mesh:

Substances:

Year:  2016        PMID: 27701792      PMCID: PMC5118129          DOI: 10.1002/hipo.22666

Source DB:  PubMed          Journal:  Hippocampus        ISSN: 1050-9631            Impact factor:   3.899


  27 in total

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8.  Inescapable versus escapable shock modulates long-term potentiation in the rat hippocampus.

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Authors:  Volker Korz; Julietta U Frey
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  10 in total

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9.  Somatic Arc protein expression in hippocampal granule cells is increased in response to environmental change but independent of task-specific learning.

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10.  Learning-induced ribosomal RNA is required for memory consolidation in mice-Evidence of differentially expressed rRNA variants in learning and memory.

Authors:  Kim D Allen; Matthew J Regier; Changchi Hsieh; Panayiotis Tsokas; Maya Barnard; Shwetha Phatarpekar; Jason Wolk; Todd C Sacktor; André A Fenton; A Iván Hernández
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  10 in total

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