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CA3 hippocampal synaptic plasticity supports ripple physiology during memory consolidation.

Hajer El OussiniChun-Lei ZhangUrielle FrançoisCecilia CastelliAurélie Lampin-Saint-AmauxMarilyn LepleuxPablo MolleLegeolas VelezCyril DejeanFrederic LanoreCyril HerryDaniel ChoquetYann Humeau
Published in: Nature communications (2023)
The consolidation of recent memories depends on memory replays, also called ripples, generated within the hippocampus during slow-wave sleep, and whose inactivation leads to memory impairment. For now, the mobilisation, localisation and importance of synaptic plasticity events associated to ripples are largely unknown. To tackle this question, we used cell surface AMPAR immobilisation to block post-synaptic LTP within the hippocampal region of male mice during a spatial memory task, and show that: 1- hippocampal synaptic plasticity is engaged during consolidation, but is dispensable during encoding or retrieval. 2- Plasticity blockade during sleep results in apparent forgetting of the encoded rule. 3- In vivo ripple recordings show a strong effect of AMPAR immobilisation when a rule has been recently encoded. 4- In situ investigation suggests that plasticity at CA3-CA3 recurrent synapses supports ripple generation. We thus propose that post-synaptic AMPAR mobility at CA3 recurrent synapses is necessary for ripple-dependent rule consolidation.
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