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Article Dans Une Revue Current Biology - CB Année : 2024

Distinct neural adaptations to time demand in the striatum and the hippocampus

Résumé

How do neural codes adjust to track time across a range of resolutions, from milliseconds to multi-seconds, as a function of the temporal frequency at which events occur? To address this question, we studied time-modulated cells in the striatum and the hippocampus, while macaques categorized three nested intervals within the sub-second or the supra-second range (up to 1, 2, 4, or 8 s), thereby modifying the temporal resolution needed to solve the task. Time-modulated cells carried more information for intervals with explicit timing demand, than for any other interval. The striatum, particularly the caudate, supported the most accurate temporal prediction throughout all time ranges. Strikingly, its temporal readout adjusted non-linearly to the time range, suggesting that the striatal resolution shifted from a precise millisecond to a coarse multi-second range as a function of demand. This is in line with monkey's behavioral latencies, which indicated that they tracked time until 2 s but employed a coarse categorization strategy for durations beyond. By contrast, the hippocampus discriminated only the beginning from the end of intervals, regardless of the range. We propose that the hippocampus may provide an overall poor signal marking an event's beginning, whereas the striatum optimizes neural resources to process time throughout an interval adapting to the ongoing timing necessity.
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Dates et versions

hal-04508815 , version 1 (18-03-2024)

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Citer

Felipe Rolando, Tadeusz Kononowicz, Jean-René Duhamel, Valérie Doyère, Sylvia Wirth. Distinct neural adaptations to time demand in the striatum and the hippocampus. Current Biology - CB, 2024, 34 (1), pp.156-170.e7. ⟨10.1016/j.cub.2023.11.066⟩. ⟨hal-04508815⟩
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