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Retuning of hippocampal representations during sleep.

Kourosh MaboudiBapun GiriHiroyuki MiyawakiCaleb T KemereKamran Diba
Published in: Nature (2024)
Hippocampal representations that underlie spatial memory undergo continuous refinement following formation 1 . Here, to track the spatial tuning of neurons dynamically during offline states, we used a new Bayesian learning approach based on the spike-triggered average decoded position in ensemble recordings from freely moving rats. Measuring these tunings, we found spatial representations within hippocampal sharp-wave ripples that were stable for hours during sleep and were strongly aligned with place fields initially observed during maze exploration. These representations were explained by a combination of factors that included preconfigured structure before maze exposure and representations that emerged during θ-oscillations and awake sharp-wave ripples while on the maze, revealing the contribution of these events in forming ensembles. Strikingly, the ripple representations during sleep predicted the future place fields of neurons during re-exposure to the maze, even when those fields deviated from previous place preferences. By contrast, we observed tunings with poor alignment to maze place fields during sleep and rest before maze exposure and in the later stages of sleep. In sum, the new decoding approach allowed us to infer and characterize the stability and retuning of place fields during offline periods, revealing the rapid emergence of representations following new exploration and the role of sleep in the representational dynamics of the hippocampus.
Keyphrases
  • working memory
  • sleep quality
  • physical activity
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  • magnetic resonance
  • spinal cord injury
  • machine learning
  • convolutional neural network
  • deep brain stimulation
  • quantum dots