Anteromedial thalamus gates the selection and stabilization of long-term memories.

TitleAnteromedial thalamus gates the selection and stabilization of long-term memories.
Publication TypeJournal Article
Year of Publication2023
AuthorsToader AC, Regalado JM, Li YRan, Terceros A, Yadav N, Kumar S, Satow S, Hollunder F, Bonito-Oliva A, Rajasethupathy P
JournalCell
Volume186
Issue7
Pagination1369-1381.e17
Date Published2023 Mar 30
ISSN1097-4172
KeywordsAnimals, Brain, Hippocampus, Memory Consolidation, Memory, Long-Term, Mice, Thalamus
Abstract

Memories initially formed in hippocampus gradually stabilize to cortex over weeks-to-months for long-term storage. The mechanistic details of this brain re-organization remain poorly understood. We recorded bulk neural activity in circuits that link hippocampus and cortex as mice performed a memory-guided virtual-reality task over weeks. We identified a prominent and sustained neural correlate of memory in anterior thalamus, whose inhibition substantially disrupted memory consolidation. More strikingly, gain amplification enhanced consolidation of otherwise unconsolidated memories. To gain mechanistic insights, we developed a technology for simultaneous cellular-resolution imaging of hippocampus, thalamus, and cortex throughout consolidation. We found that whereas hippocampus equally encodes multiple memories, the anteromedial thalamus preferentially encodes salient memories, and gradually increases correlations with cortex to facilitate tuning and synchronization of cortical ensembles. We thus identify a thalamo-cortical circuit that gates memory consolidation and propose a mechanism suitable for the selection and stabilization of hippocampal memories into longer-term cortical storage.

DOI10.1016/j.cell.2023.02.024
Alternate JournalCell
PubMed ID37001501

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