Bart van Alphen scite author profile

Optogenetic upregulation of cyclic adenosine monophosphate during the day increases sleep intensity at night, whereas loss of function of a molecule involved in synaptic pruning, the fragile-X mental retardation protein, increases sleep intensity during the day. Our results show that sleep is not homogenous in insects, and suggest that waking behavior and the associated synaptic plasticity mechanisms determine the timing and intensity of deep sleep stages in Drosophila.

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Oscillatory brain activity in spontaneous and induced sleep stages in flies

Yap

et al. 2017

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Sleep is a dynamic process comprising multiple stages, each associated with distinct electrophysiological properties and potentially serving different functions. While these phenomena are well described in vertebrates, it is unclear if invertebrates have distinct sleep stages. We perform local field potential (LFP) recordings on flies spontaneously sleeping, and compare their brain activity to flies induced to sleep using either genetic activation of sleep-promoting circuitry or the GABAA agonist Gaboxadol. We find a transitional sleep stage associated with a 7–10 Hz oscillation in the central brain during spontaneous sleep. Oscillatory activity is also evident when we acutely activate sleep-promoting neurons in the dorsal fan-shaped body (dFB) of Drosophila. In contrast, sleep following Gaboxadol exposure is characterized by low-amplitude LFPs, during which dFB-induced effects are suppressed. Sleep in flies thus appears to involve at least two distinct stages: increased oscillatory activity, particularly during sleep induction, followed by desynchronized or decreased brain activity.

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A Sleep/Wake Circuit Controls Isoflurane Sensitivity in Drosophila

et al. 2013

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General anesthesia remains a mysterious phenomenon, even though a number of compelling target proteins and processes have been proposed [1]. General anesthetics such as isoflurane abolish behavioral responsiveness in all animals, and in the mammalian brain, these diverse compounds probably achieve this in part by targeting endogenous sleep mechanisms [2, 3]. However, most animals sleep [4], and they are therefore likely to have conserved sleep processes. A decade of neurogenetic studies of arousal in Drosophila melanogaster have identified a number of different neurons and brain structures that modulate sleep duration in the fly brain [5-9], but it has remained unclear until recently whether any neurons might form part of a dedicated circuit that actively controls sleep and wake states in the fly brain, as has been proposed for the mammalian brain [10]. We studied general anesthesia in Drosophila by measuring stimulus-induced locomotion under isoflurane gas exposure. Using a syntaxin1A gain-of-function construct, we found that increasing synaptic activity in different Drosophila neurons could produce hypersensitivity or resistance to isoflurane. We uncover a common pathway in the fly brain controlling both sleep duration and isoflurane sensitivity, centered on monoaminergic modulation of sleep-promoting neurons of the fan-shaped body.

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A deep sleep stage in Drosophila with a functional role in waste clearance

et al. 2021

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Sleep is a highly conserved state, suggesting that sleep’s benefits outweigh the increased vulnerability it brings. Yet, little is known about how sleep fulfills its functions. Here, we used video tracking in tethered flies to identify a discrete deep sleep stage in Drosophila, termed proboscis extension sleep, that is defined by repeated stereotyped proboscis extensions and retractions. Proboscis extension sleep is accompanied by highly elevated arousal thresholds and decreased brain activity, indicative of a deep sleep state. Preventing proboscis extensions increases injury-related mortality and reduces waste clearance. Sleep deprivation reduces waste clearance and during subsequent rebound sleep, sleep, proboscis extensions, and waste clearance are increased. Together, these results provide evidence of a discrete deep sleep stage that is linked to a specific function and suggest that waste clearance is a core and ancient function of deep sleep.

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Age- and Sex-Related Differences in Contrast Sensitivity in C57Bl/6 Mice

Alphen

Winkelman

Frens

2009

Invest. Ophthalmol. Vis. Sci.

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OKR gains decrease as stimuli become more difficult to see, making the OKR a powerful tool to quantify contrast sensitivity. In C57BL/6 these response magnitudes vary greatly between sexes and between mice that differ only a few months in age. Therefore, it is important to match groups according to age and sex in experiments that require unimpaired vision. Otherwise, impaired vision can be misinterpreted as a learning or motor problem.

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Drosophila strategies to study psychiatric disorders

Alphen

Swinderen

2013

Brain Research Bulletin

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Three-Dimensional Optokinetic Eye Movements in the C57BL/6J Mouse

Alphen¹,

Winkelman²,

Frens³

2010

Invest. Ophthalmol. Vis. Sci.

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Glial immune-related pathways mediate effects of closed head traumatic brain injury on behavior and lethality in Drosophila

et al. 2022

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In traumatic brain injury (TBI), the initial injury phase is followed by a secondary phase that contributes to neurodegeneration, yet the mechanisms leading to neuropathology in vivo remain to be elucidated. To address this question, we developed a Drosophila head-specific model for TBI termed Drosophila Closed Head Injury (dCHI), where well-controlled, nonpenetrating strikes are delivered to the head of unanesthetized flies. This assay recapitulates many TBI phenotypes, including increased mortality, impaired motor control, fragmented sleep, and increased neuronal cell death. TBI results in significant changes in the transcriptome, including up-regulation of genes encoding antimicrobial peptides (AMPs). To test the in vivo functional role of these changes, we examined TBI-dependent behavior and lethality in mutants of the master immune regulator NF-κB, important for AMP induction, and found that while sleep and motor function effects were reduced, lethality effects were enhanced. Similarly, loss of most AMP classes also renders flies susceptible to lethal TBI effects. These studies validate a new Drosophila TBI model and identify immune pathways as in vivo mediators of TBI effects.

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Bart van Alphen

A Dynamic Deep Sleep Stage inDrosophila

Oscillatory brain activity in spontaneous and induced sleep stages in flies

A Sleep/Wake Circuit Controls Isoflurane Sensitivity in Drosophila

A deep sleep stage in Drosophila with a functional role in waste clearance

Age- and Sex-Related Differences in Contrast Sensitivity in C57Bl/6 Mice

Drosophila strategies to study psychiatric disorders

Three-Dimensional Optokinetic Eye Movements in the C57BL/6J Mouse

Glial immune-related pathways mediate effects of closed head traumatic brain injury on behavior and lethality in Drosophila

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