Margaret C.W. Ho scite author profile

Sleep is under homeostatic control, whereby increasing wakefulness generates sleep need and triggers sleep drive. However, the molecular and cellular pathways by which sleep need is encoded are poorly understood. In addition, the mechanisms underlying both how and when sleep need is transformed to sleep drive are unknown. Here, using ex vivo and in vivo imaging, we show in Drosophila that astroglial Ca 2+ signaling increases with sleep need. We demonstrate that this signaling is dependent on a specific L-type Ca 2+ channel and is required for homeostatic sleep rebound. Thermogenetically increasing Ca 2+ in astrocytes induces persistent sleep behavior, and we exploit this phenotype to conduct a genetic screen for genes required for the homeostatic regulation of sleep. From this large-scale screen, we identify TyrRII, a monoaminergic receptor required in astrocytes for sleep homeostasis. TyrRII levels rise following sleep deprivation in a Ca 2+ -dependent manner, promoting further increases in astrocytic Ca 2+ and resulting in a positive-feedback loop. These data suggest that TyrRII acts as a gate to enable the transformation of sleep need to sleep drive at the appropriate time. Moreover, our findings suggest that astrocytes then transmit this sleep need to the R5 sleep drive circuit, by upregulation and release of the interleukin-1 analog Spätzle. These findings define astroglial Ca 2+ signaling mechanisms encoding sleep need and reveal dynamic properties of the sleep homeostatic control system.

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Margaret C.W. Ho

A Modular Library of Small Molecule Signals Regulates Social Behaviors in Caenorhabditis elegans

Morning and Evening Circadian Pacemakers Independently Drive Premotor Centers via a Specific Dopamine Relay

Astroglial Calcium Signaling Encodes Sleep Need in Drosophila

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