Forward genetics identifies a novel sleep mutant with sleep state inertia and REM sleep deficits

Switches between global sleep and wakefulness states are believed to be dictated by top-down influences arising from subcortical nuclei. Using forward genetics and in vivo electrophysiology, we identified a recessive mouse mutant line characterized by a substantially reduced propensity to transition...

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Veröffentlicht in:	Science advances 2020-08, Vol.6 (33), p.eabb3567-eabb3567
Hauptverfasser:	Banks, Gareth T, Guillaumin, Mathilde C C, Heise, Ines, Lau, Petrina, Yin, Minghui, Bourbia, Nora, Aguilar, Carlos, Bowl, Michael R, Esapa, Chris, Brown, Laurence A, Hasan, Sibah, Tagliatti, Erica, Nicholson, Elizabeth, Bains, Rasneer Sonia, Wells, Sara, Vyazovskiy, Vladyslav V, Volynski, Kirill, Peirson, Stuart N, Nolan, Patrick M
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Sprache:	eng
Schlagworte:	Animals Brain - physiology Electrophysiological Phenomena Genetics Mice Neuroscience SciAdv r-articles Sleep - genetics Sleep, REM - genetics Wakefulness - genetics
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creator	Banks, Gareth T Guillaumin, Mathilde C C Heise, Ines Lau, Petrina Yin, Minghui Bourbia, Nora Aguilar, Carlos Bowl, Michael R Esapa, Chris Brown, Laurence A Hasan, Sibah Tagliatti, Erica Nicholson, Elizabeth Bains, Rasneer Sonia Wells, Sara Vyazovskiy, Vladyslav V Volynski, Kirill Peirson, Stuart N Nolan, Patrick M
description	Switches between global sleep and wakefulness states are believed to be dictated by top-down influences arising from subcortical nuclei. Using forward genetics and in vivo electrophysiology, we identified a recessive mouse mutant line characterized by a substantially reduced propensity to transition between wake and sleep states with an especially pronounced deficit in initiating rapid eye movement (REM) sleep episodes. The causative mutation, an Ile102Asn substitution in the synaptic vesicular protein, VAMP2, was associated with morphological synaptic changes and specific behavioral deficits, while in vitro electrophysiological investigations with fluorescence imaging revealed a markedly diminished probability of vesicular release in mutants. Our data show that global shifts in the synaptic efficiency across brain-wide networks leads to an altered probability of vigilance state transitions, possibly as a result of an altered excitability balance within local circuits controlling sleep-wake architecture.
doi_str_mv	10.1126/sciadv.abb3567
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Using forward genetics and in vivo electrophysiology, we identified a recessive mouse mutant line characterized by a substantially reduced propensity to transition between wake and sleep states with an especially pronounced deficit in initiating rapid eye movement (REM) sleep episodes. The causative mutation, an Ile102Asn substitution in the synaptic vesicular protein, VAMP2, was associated with morphological synaptic changes and specific behavioral deficits, while in vitro electrophysiological investigations with fluorescence imaging revealed a markedly diminished probability of vesicular release in mutants. 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subjects	Animals Brain - physiology Electrophysiological Phenomena Genetics Mice Neuroscience SciAdv r-articles Sleep - genetics Sleep, REM - genetics Wakefulness - genetics
title	Forward genetics identifies a novel sleep mutant with sleep state inertia and REM sleep deficits
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