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Integration of rate and phase codes by hippocampal cell-assemblies supports flexible encoding of spatiotemporal context

Eleonora Russo (), Nadine Becker, Aleks P. F. Domanski, Timothy Howe, Kipp Freud, Daniel Durstewitz and Matthew W. Jones ()
Additional contact information
Eleonora Russo: Scuola Superiore Sant’Anna
Nadine Becker: University Walk
Aleks P. F. Domanski: University Walk
Timothy Howe: University Walk
Kipp Freud: University of Bristol
Daniel Durstewitz: Heidelberg University
Matthew W. Jones: University Walk

Nature Communications, 2024, vol. 15, issue 1, 1-17

Abstract: Abstract Spatial information is encoded by location-dependent hippocampal place cell firing rates and sub-second, rhythmic entrainment of spike times. These rate and temporal codes have primarily been characterized in low-dimensional environments under limited cognitive demands; but how is coding configured in complex environments when individual place cells signal several locations, individual locations contribute to multiple routes and functional demands vary? Quantifying CA1 population dynamics of male rats during a decision-making task, here we show that the phase of individual place cells’ spikes relative to the local theta rhythm shifts to differentiate activity in different place fields. Theta phase coding also disambiguates repeated visits to the same location during different routes, particularly preceding spatial decisions. Using unsupervised detection of cell assemblies alongside theoretical simulation, we show that integrating rate and phase coding mechanisms dynamically recruits units to different assemblies, generating spiking sequences that disambiguate episodes of experience and multiplexing spatial information with cognitive context.

Date: 2024
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DOI: 10.1038/s41467-024-52988-x

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