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Neural and behavioural state switching during hippocampal dentate spikes

Jordan S. Farrell, Ernie Hwaun, Barna Dudok, Iván Soltész

2024Nature44 citationsDOIOpen Access PDF

Abstract

Abstract Distinct brain and behavioural states are associated with organized neural population dynamics that are thought to serve specific cognitive functions 1–3 . Memory replay events, for example, occur during synchronous population events called sharp-wave ripples in the hippocampus while mice are in an ‘offline’ behavioural state, enabling cognitive mechanisms such as memory consolidation and planning 4–11 . But how does the brain re-engage with the external world during this behavioural state and permit access to current sensory information or promote new memory formation? Here we found that the hippocampal dentate spike, an understudied population event that frequently occurs between sharp-wave ripples 12 , may underlie such a mechanism. We show that dentate spikes are associated with distinctly elevated brain-wide firing rates, primarily observed in higher order networks, and couple to brief periods of arousal. Hippocampal place coding during dentate spikes aligns to the mouse’s current spatial location, unlike the memory replay accompanying sharp-wave ripples. Furthermore, inhibiting neural activity during dentate spikes disrupts associative memory formation. Thus, dentate spikes represent a distinct brain state and support memory during non-locomotor behaviour, extending the repertoire of cognitive processes beyond the classical offline functions.

Topics & Concepts

Hippocampal formationNeuroscienceDentate gyrusMemory consolidationPopulationHippocampusCognitionNeural codingEpisodic memoryPsychologyMedicineEnvironmental healthMemory and Neural MechanismsNeuroscience and Neuropharmacology ResearchNeural dynamics and brain function
Neural and behavioural state switching during hippocampal dentate spikes | Litcius