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. 2025 Apr;28(4):811-822.
doi: 10.1038/s41593-025-01883-9. Epub 2025 Feb 18.

Hippocampus shapes entorhinal cortical output through a direct feedback circuit

Tanvi Butola  1 Melissa Hernández-Frausto  1 Stefan Blankvoort  2 Marcus Sandbukt Flatset  2 Lulu Peng  1 Ariel Hairston  1 Cara Deanna Johnson  1 Margot Elmaleh  1 Amanda Amilcar  1 Fabliha Hussain  1 Claudia Clopath  3 Clifford Kentros  2   4 Jayeeta Basu  5   6   7   8
Affiliations

Hippocampus shapes entorhinal cortical output through a direct feedback circuit

Tanvi Butola et al. Nat Neurosci. 2025 Apr.

Abstract

Our brains integrate sensory, cognitive and internal state information with memories to extract behavioral relevance. Cortico-hippocampal interactions likely mediate this interplay, but underlying circuit mechanisms remain elusive. Unlike the entorhinal cortex-to-hippocampus pathway, we know little about the organization and function of the hippocampus-to-cortex feedback circuit. Here we report in mice, two functionally distinct parallel hippocampus-to-entorhinal cortex feedback pathways: the canonical disynaptic route via layer 5 and a novel monosynaptic input to layer 2/3. Circuit mapping reveals that hippocampal input predominantly drives excitation in layer 5 but feed-forward inhibition in layer 2/3. Upon repetitive pairing with cortical layer 1 inputs, hippocampal inputs undergo homosynaptic potentiation in layer 5, but induce heterosynaptic plasticity and spike output in layer 2/3. Behaviorally, hippocampal inputs to layer 5 and layer 2/3 support object memory encoding versus recall, respectively. Two-photon imaging during navigation reveals hippocampal suppression reduces spatially tuned cortical axonal activity. We present a model, where hippocampal feedback could iteratively shape ongoing cortical processing.

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Conflict of interest statement

Competing interests: The authors declare no competing interests.

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