Daytime Naps, Motor Memory Consolidation and Regionally Specific Sleep Spindles

Abstract Purpose of review This paper reviews all optogenetic studies that directly test various sleep states, traits, and circuit-level activity profiles for the consolidation of different learning tasks. Recent findings Inhibiting or exciting neurons involved either in the production of sleep states or in the encoding and consolidation of memories reveals sleep states and traits that are essential for memory. REM sleep, NREM sleep, and the N2 transition to REM (characterized by sleep spindles) are integral to memory consolidation. Neural activity during sharp-wave ripples, slow oscillations, theta waves, and spindles are the mediators of this process. Summary These studies lend strong support to the hypothesis that sleep is essential to the consolidation of memories from the hippocampus and the consolidation of motor learning which does not necessarily involve the hippocampus. Future research can further probe the types of memory dependent on sleep-related traits and on the neurotransmitters and neuromodulators required.

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Pharmacologically Increasing Sleep Spindles Enhances Recognition for Negative and High-arousal Memories

Journal of Cognitive Neuroscience ◽

10.1162/jocn_a_00433 ◽

2013 ◽

Vol 25 (10) ◽

pp. 1597-1610 ◽

Cited By ~ 65

Author(s):

Erik J. Kaestner ◽

John T. Wixted ◽

Sara C. Mednick

Keyword(s):

Rem Sleep ◽

Memory Consolidation ◽

Declarative Memory ◽

Memory Performance ◽

Emotional Memory ◽

Limited Range ◽

Sleep Spindles ◽

Sleep Spindle ◽

Emotional Stimuli ◽

Valence And Arousal

Sleep affects declarative memory for emotional stimuli differently than it affects declarative memory for nonemotional stimuli. However, the interaction between specific sleep characteristics and emotional memory is not well understood. Recent studies on how sleep affects emotional memory have focused on rapid eye movement sleep (REM) but have not addressed non-REM sleep, particularly sleep spindles. This is despite the fact that sleep spindles are implicated in declarative memory as well as neural models of memory consolidation (e.g., hippocampal neural replay). Additionally, many studies examine a limited range of emotional stimuli and fail to disentangle differences in memory performance because of variance in valence and arousal. Here, we experimentally increase non-REM sleep features, sleep spindle density, and SWS, with pharmacological interventions using zolpidem (Ambien) and sodium oxybate (Xyrem) during daytime naps. We use a full spread of emotional stimuli to test all levels of valence and arousal. We find that increasing sleep spindle density increases memory discrimination (da) for highly arousing and negative stimuli without altering measures of bias (ca). These results indicate a broader role for sleep in the processing of emotional stimuli with differing effects based on arousal and valence, and they raise the possibility that sleep spindles causally facilitate emotional memory consolidation. These findings are discussed in terms of the known use of hypnotics in individuals with emotional mood disorders.

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Medial Prefrontal-Hippocampal Connectivity and Motor Memory Consolidation in Depression and Schizophrenia

Biological Psychiatry ◽

10.1016/j.biopsych.2014.06.004 ◽

2015 ◽

Vol 77 (2) ◽

pp. 177-186 ◽

Cited By ~ 63

Author(s):

Lisa Genzel ◽

Martin Dresler ◽

Marion Cornu ◽

Eugen Jäger ◽

Boris Konrad ◽

...

Keyword(s):

Memory Consolidation ◽

Motor Memory

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Contribution of the Premotor Cortex to Consolidation of Motor Sequence Learning in Humans During Sleep

Journal of Neurophysiology ◽

10.1152/jn.00611.2010 ◽

2010 ◽

Vol 104 (5) ◽

pp. 2603-2614 ◽

Cited By ~ 57

Author(s):

Michael A. Nitsche ◽

Michaela Jakoubkova ◽

Nivethida Thirugnanasambandam ◽

Leonie Schmalfuss ◽

Sandra Hullemann ◽

...

Keyword(s):

Reaction Time ◽

Task Performance ◽

Rem Sleep ◽

Sequence Learning ◽

Memory Consolidation ◽

Primary Motor Cortex ◽

Premotor Cortex ◽

Reaction Time Task ◽

Motor Memory ◽

Motor Sequence

Motor learning and memory consolidation require the contribution of different cortices. For motor sequence learning, the primary motor cortex is involved primarily in its acquisition. Premotor areas might be important for consolidation. In accordance, modulation of cortical excitability via transcranial DC stimulation (tDCS) during learning affects performance when applied to the primary motor cortex, but not premotor cortex. We aimed to explore whether premotor tDCS influences task performance during motor memory consolidation. The impact of excitability-enhancing, -diminishing, or placebo premotor tDCS during rapid eye movement (REM) sleep on recall in the serial reaction time task (SRTT) was explored in healthy humans. The motor task was learned in the evening. Recall was performed immediately after tDCS or the following morning. In two separate control experiments, excitability-enhancing premotor tDCS was performed 4 h after task learning during daytime or immediately before conduction of a simple reaction time task. Excitability-enhancing tDCS performed during REM sleep increased recall of the learned movement sequences, when tested immediately after stimulation. REM density was enhanced by excitability-increasing tDCS and reduced by inhibitory tDCS, but did not correlate with task performance. In the control experiments, tDCS did not improve performance. We conclude that the premotor cortex is involved in motor memory consolidation during REM sleep.

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