Experience, not time, determines representational drift in the hippocampus
Khatib, D.; Ratzon, A.; Sellevoll, M.; Barak, O.; Morris, G.; Derdikman, D.
Show abstract
Memories of past events can be recalled long after the event, indicating stability. But new experiences are also integrated into existing memories, indicating plasticity. In the hippocampus, spatial representations are known to remain stable, but have also been shown to drift over long periods of time. We hypothesized that experience, more than the passage of time, is the driving force behind memory plasticity. We compared the stability of place cells in the hippocampus of mice traversing two similar, familiar tracks for different durations. We found that the more time spent in an environment, the greater the representational drift, regardless of the total elapsed time. Our results suggest that spatial representation is a dynamic process, related to the ongoing experiences within a specific context, and is related to the accumulation of new memories rather than to passive forgetting. HighlightsO_LIRepresentational drift is related to experience within an environment. C_LIO_LIRepresentational drift is a dynamic context-wide process. C_LIO_LIPlace cell number decreases with experience, spatial information content increases. C_LI
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