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Spatial exploration induces a persistent reversal of long-term potentiation in rat hippocampus

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  • Lin Xu

    (Department of Pharmacology and Therapeutics
    Kunming Institute of Zoology, Chinese Academy of Sciences)

  • Roger Anwyl

    (Trinity College)

  • Michael J. Rowan

    (Department of Pharmacology and Therapeutics)

Abstract

Experience-dependent long-lasting increases in excitatory synaptic transmission in the hippocampus are believed to underlie certain types of memory1,2,3. Whereas stimulation of hippocampal pathways in freely moving rats can readily elicit a long-term potentiation (LTP) of transmission that may last for weeks, previous studies have failed to detect persistent increases in synaptic efficacy after hippocampus-mediated learning4,5,6. As changes in synaptic efficacy are contingent on the history of plasticity at the synapses7, we have examined the effect of experience-dependent hippocampal activation on transmission after the induction of LTP. We show that exploration of a new, non-stressful environment rapidly induces a complete and persistent reversal ofthe expression of high-frequency stimulation-induced early-phase LTP in the CA1 area of the hippocampus, without affecting baseline transmission in a control pathway. LTP expression is not affected by exploration of familiar environments. We found that spatial exploration affected LTP within a defined time window because neither the induction of LTP nor the maintenance of long-established LTP was blocked. The discovery of a novelty-induced reversal of LTP expression provides strong evidence that extensive long-lasting decreases in synaptic efficacy may act in tandem with enhancements at selected synapses to allow the detection and storage of new information by the hippocampus.

Suggested Citation

  • Lin Xu & Roger Anwyl & Michael J. Rowan, 1998. "Spatial exploration induces a persistent reversal of long-term potentiation in rat hippocampus," Nature, Nature, vol. 394(6696), pages 891-894, August.
  • Handle: RePEc:nat:nature:v:394:y:1998:i:6696:d:10.1038_29783
    DOI: 10.1038/29783
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    Cited by:

    1. Yung-Tian A. Gau & Eric T. Hsu & Richard J. Cha & Rebecca W. Pak & Loren L. Looger & Jin U. Kang & Dwight E. Bergles, 2024. "Multicore fiber optic imaging reveals that astrocyte calcium activity in the mouse cerebral cortex is modulated by internal motivational state," Nature Communications, Nature, vol. 15(1), pages 1-21, December.

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