State-dependent spike-timing relationships between hippocampal and prefrontal circuits during sleep
Abstract
Cortico-hippocampal interactions during sleep are believed to reorganize neural circuits in support of memory consolidation. However, spike-timing relationships across cortico-hippocampal networks—key determinants of synaptic changes—are poorly understood. Here we show that cells in prefrontal cortex fire consistently within 100 ms after hippocampal cells in naturally sleeping animals. This provides evidence at the single cell-pair level for highly consistent directional interactions between these areas within the window of plasticity. Moreover, these interactions are state dependent: they are driven by hippocampal sharp-wave/ripple (SWR) bursts in slow-wave sleep (SWS) and are sharply reduced during REM sleep. Finally, prefrontal responses are nonlinear: as the strength of hippocampal bursts rises, short-latency prefrontal responses are augmented by increased spindle band activity and a secondary peak ∼100 ms later. These findings suggest that SWR events are atomic units of hippocampal-prefrontal communication during SWS and that the coupling between these areas is highly attenuated during REM sleep.
Additional Information
© 2009 Elsevier Inc. Accepted: January 13, 2009, Published: February 25, 2009. We are grateful to Mark Konishi, Gilles Laurent, Pietro Perona, Erin Schuman, Georg Seelig, and Andreas Tolias for many useful discussions and comments on the manuscript. This work was supported by a Department of Defense National Defense Science and Engineering Graduate Fellowship (C.W.), the Caltech Information Science and Technology Center for Biological Circuits Design, the James S. McDonnell Foundation, the Bren Foundation, the McKnight Foundation, the Whitehall Foundation, and the National Institutes of Health. The Supplemental Data include three figures and can be found with this article online at http://www.neuron.org/supplemental/S0896-6273(09)00078-6.Attached Files
Accepted Version - nihms95180.pdf
Supplemental Material - Wierzynski_Supp.pdf
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Additional details
- PMCID
- PMC2701743
- Eprint ID
- 16003
- Resolver ID
- CaltechAUTHORS:20090922-200126330
- Department of Defense
- Center for Biological Circuits Design, Caltech
- James S. McDonnell Foundation
- Bren Foundation
- McKnight Foundation
- Whitehall Foundation
- NIH
- Created
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2009-09-23Created from EPrint's datestamp field
- Updated
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2023-10-19Created from EPrint's last_modified field