Manipulating sleep spindles – expanding views on sleep, memory, and disease

Astori, Simone; Wimmer, Ralf; Lüthi, Anita

doi:10.1016/j.tins.2013.10.001

Cited by 134 publications

(116 citation statements)

References 128 publications

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“…While the Ca 2+ spike is readily observable in intracellular recordings, a burst is inferred in extracellular recordings using criteria that capture their intracellular statistics (100msec silence followed by <4msec interspike intervals) [43] (Fig 2B). Thalamic Ca 2+ spikes are generated by low-threshold T-type Ca 2+ channels (CaV 3 family) [44], which are recruited at hyperpolarized membrane potentials that are thought to be more prevalent during periods of behavioral quiescence and sleep [45]. For the TRN, this would mean enhanced bursting during these states resulting in more widespread and longer-lasting inhibition of thalamic targets.…”

Section: The Thalamic Reticular Nucleusmentioning

confidence: 99%

“…Spindles are 7–14Hz phasic transients that are observed in the cortical electroencephalograph (EEG) during sleep, and have been linked to sensory processing and memory consolidation [45]. Spindles are known to require interactions between TRN and connected thalamus, but the detailed synaptic interactions have only been revealed recently.…”

Section: The Thalamic Reticular Nucleusmentioning

confidence: 99%

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Thalamic Inhibition: Diverse Sources, Diverse Scales

Halassa

Acsády

2016

Trends in Neurosciences

209

182

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The thalamus is the major source of cortical inputs shaping sensation, action and cognition. Thalamic circuits are targeted by two major inhibitory systems: the thalamic reticular nucleus (TRN) and extra-thalamic inhibitory (ETI) inputs. A unifying framework of how these systems operate is currently lacking. Here, we propose that TRN circuits are specialized to exert thalamic control at different spatiotemporal scales. Local inhibition of thalamic spike rates prevails during attentional selection whereas global inhibition more likely during sleep. In contrast, the ETI (arising from basal ganglia, zona incerta, anterior pretectum and pontine reticular formation) provides temporally-precise and focal inhibition, impacting spike timing. Together, these inhibitory systems allow graded control of thalamic output, enabling thalamocortical operations to dynamically match ongoing behavioral demands.

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Section: The Thalamic Reticular Nucleusmentioning

confidence: 99%

Section: The Thalamic Reticular Nucleusmentioning

confidence: 99%

Thalamic Inhibition: Diverse Sources, Diverse Scales

Halassa

Acsády

2016

Trends in Neurosciences

209

182

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“…Sleep spindles, which originate in the thalamus and propagate to widespread cortical regions (De Gennaro & Ferrara, 2003), are robustly associated with offline memory processes (Astori, Wimmer, & Lüthi, 2013;Diekelmann, 2014;Rasch & Born, 2013). Human studies have reported increased spindle activity after learning (Gais, Molle, Helms, & Born, 2002;Schmidt et al 2006), as well as predictive relationships between spindle activity and subsequent memory performance; an effect observed across naturally occurring sleep (Clemens, Fabo, & Halasz, 2005;Schabus et al, 2004) and following pharmacological manipulations of spindle density .…”

Section: Sleep Spindles and Emotional Contextsmentioning

confidence: 99%

Sleep spindles provide indirect support to the consolidation of emotional encoding contexts

et al. 2014

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Emotional memories tend to be strengthened ahead of neutral memories during sleep-dependent consolidation. In recent work, however, we found that this is not the case when emotion pertains to the contextual features of a memory instead of its central constructs, suggesting that emotional contexts are influenced by distinct properties of sleep. We therefore examined the sleep-specific mechanisms supporting representations of emotional context and asked whether these differ to those already implicated in central emotional memory processing, such as rapid eye movement sleep (REM). Participants encoded neutral foreground images that were each associated with an emotionally negative or neutral background (context) image. Immediate and delayed tests for the emotionality of the foreground/background image association were separated by a 4-h consolidation period, which consisted of either total wakefulness or included a 2-h polysomnographically monitored nap. Although memory for negative contexts was not associated with REM, or any other parameter of sleep, sleep spindles (12-15 Hz) predicted increased forgetting and slowed response times for neutral contexts. Together with prior work linking spindles to emotional memory processing, our data may suggest that spindles provide multi-layered support to emotionally salient memories in sleep, with the nature of such effects depending on whether the emotionality of these memories pertains to their central or contextual features. Therefore, whereas spindles may mediate a direct strengthening of central emotional information, as suggested in prior work, they may also provide concurrent indirect support to emotional contexts by working to suppress non-salient neutral contexts.

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“…Spindle activity is modifiable24252627 and could represent an attractive therapeutic target if causally implicated in disease risk. In light of recent progress in schizophrenia genetics2829, genetically characterizing variation in spindle activity could help to elucidate pathways between genetic risk and neuropsychiatric disease23.…”

mentioning

confidence: 99%

Characterizing sleep spindles in 11,630 individuals from the National Sleep Research Resource

et al. 2017

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Sleep spindles are characteristic electroencephalogram (EEG) signatures of stage 2 non-rapid eye movement sleep. Implicated in sleep regulation and cognitive functioning, spindles may represent heritable biomarkers of neuropsychiatric disease. Here we characterize spindles in 11,630 individuals aged 4 to 97 years, as a prelude to future genetic studies. Spindle properties are highly reliable but exhibit distinct developmental trajectories. Across the night, we observe complex patterns of age- and frequency-dependent dynamics, including signatures of circadian modulation. We identify previously unappreciated correlates of spindle activity, including confounding by body mass index mediated by cardiac interference in the EEG. After taking account of these confounds, genetic factors significantly contribute to spindle and spectral sleep traits. Finally, we consider topographical differences and critical measurement issues. Taken together, our findings will lead to an increased understanding of the genetic architecture of sleep spindles and their relation to behavioural and health outcomes, including neuropsychiatric disorders.

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Manipulating sleep spindles – expanding views on sleep, memory, and disease

Cited by 134 publications

References 128 publications

Thalamic Inhibition: Diverse Sources, Diverse Scales

Thalamic Inhibition: Diverse Sources, Diverse Scales

Sleep spindles provide indirect support to the consolidation of emotional encoding contexts

Characterizing sleep spindles in 11,630 individuals from the National Sleep Research Resource

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