Sleep Oscillations in the Thalamocortical System Induce Long-Term Neuronal Plasticity | Neuroscience_topics |


  • Slow-wave sleep induces long-term potentiation of evoked responses
  • In vitro, stimulation mimicking SWS replicated these results
  • Potentiation of responses was postsynaptic, Ca2+, AMPA, and NMDA dependent
  • The mechanism of potentiation was compatible with the classical LTP mechanism


Long-term plasticity contributes to memory formation and sleep plays a critical role in memory consolidation. However, it is unclear whether sleep slow oscillation by itself induces long-term plasticity that contributes to memory retention. Using in vivo prethalamic electrical stimulation at 1 Hz, which itself does not induce immediate potentiation of evoked responses, we investigated how the cortical evoked response was modulated by different states of vigilance. We found that somatosensory evoked potentials during wake were enhanced after a slow-wave sleep episode (with or without stimulation during sleep) as compared to a previous wake episode. In vitro, we determined that this enhancement has a postsynaptic mechanism that is calcium dependent, requires hyperpolarization periods (slow waves), and requires a coactivation of both AMPA and NMDA receptors. Our results suggest that long-term potentiation occurs during slow-wave sleep, supporting its contribution to memory.

Sylvain Chauvette, Josée Seigneur, Igor TimofeevNeuron, Volume 75, Issue 6, 1105-1113, 20 September 2012