Nitric oxide-dependent long-term depression but not endocannabinoid-mediated long-term potentiation is crucial for visual recognition memory

Francesco Tamagnini, Gareth Barker, E. Clea Warburton, Giorgio Aicardi, Zafar I. Bashir*

*Corresponding author for this work

Research output: Contribution to journalArticle (Academic Journal)peer-review

26 Citations (Scopus)

Abstract

Synaptic plasticity in perirhinal cortex is essential for recognition memory. Nitric oxide and endocannabinoids (eCBs), which are produced in the postsynaptic cell and act on the presynaptic terminal, are implicated in mechanisms of long-term potentiation (LTP) and long-term depression (LTD) in other brain regions. In this study, we examine these two retrograde signalling cascades in perirhinal cortex synaptic plasticity and in visual recognition memory in the rat. We show that inhibition of NO-dependent signalling prevented both carbachol-and activity (5 Hz)-dependent LTD but not activity (100 Hz theta burst)-dependent LTP in the rat perirhinal cortex in vitro. In contrast, inhibition of the eCB-dependent signalling prevented LTP but not the two forms of LTD in vitro. Local administration into perirhinal cortex of the nitric oxide synthase inhibitor NPA (2 mu M) disrupted acquisition of long-term visual recognition memory. In contrast, AM251 (10 mu M), a cannabinoid receptor 1 antagonist, did not impair visual recognition memory. The results of this study demonstrate dissociation between putative retrograde signalling mechanisms in LTD and LTP in perirhinal cortex. Thus, LTP relies on cannabinoid but not NO signalling, whilst LTD relies on NO-but not eCB-dependent signalling. Critically, these results also establish, for the first time, that NO-but not eCB-dependent signalling is important in perirhinal cortex-dependent visual recognition memory.

Original languageEnglish
Pages (from-to)3963-3979
Number of pages17
JournalJournal of Physiology
Volume591
Issue number16
DOIs
Publication statusPublished - 15 Aug 2013

Keywords

  • METABOTROPIC GLUTAMATE-RECEPTOR
  • CULTURED HIPPOCAMPAL-NEURONS
  • CENTRAL-NERVOUS-SYSTEM
  • AGE-RELATED-CHANGES
  • PERIRHINAL CORTEX
  • SYNAPTIC-TRANSMISSION
  • OBJECT-RECOGNITION
  • PREFRONTAL CORTEX
  • LASTING POTENTIATION
  • REGIONAL-VARIATIONS

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