DAYWAKE implicates novel roles for circulating lipid-binding proteins as extracerebral regulators of daytime wake–sleep behavior

Gabriel Villegas; Mathew T. Pereira; Cameron R. Love; Isaac Edery

doi:10.1002/1873-3468.14789

DAYWAKE implicates novel roles for circulating lipid-binding proteins as extracerebral regulators of daytime wake–sleep behavior

Gabriel Villegas, Mathew T. Pereira, Cameron R. Love, Isaac Edery

Center for Advanced Biotechnology and Medicine (CABM)

Research output: Contribution to journal › Article › peer-review

Abstract

Sleep during the midday, commonly referred to as siesta, is a common trait of animals that mainly sleep during the night. Work using Drosophila led to the identification of the daywake (dyw) gene, found to have anti-siesta activity. Herein, we show that the DYW protein undergoes signal peptide-dependent secretion, is present in the circulatory system, and accumulates in multiple organs, but, surprisingly, it is not detected in the brain where wake–sleep centers are located. The abundance of DYW in adult flies is regulated by age, sex, temperature, and the splicing efficiency of a nearby thermosensitive intron. We suggest that DYW regulates daytime wake–sleep balance in an indirect, extracerebral manner, via a multi-organ network that interfaces with the circulatory system.

Original language	English (US)
Pages (from-to)	321-330
Number of pages	10
Journal	FEBS Letters
Volume	598
Issue number	3
DOIs	https://doi.org/10.1002/1873-3468.14789
State	Published - Feb 2024

All Science Journal Classification (ASJC) codes

Biophysics
Structural Biology
Biochemistry
Molecular Biology
Genetics
Cell Biology

Keywords

Drosophila
daywake
protein secretion
siesta
sleep
wake

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10.1002/1873-3468.14789

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title = "DAYWAKE implicates novel roles for circulating lipid-binding proteins as extracerebral regulators of daytime wake–sleep behavior",

abstract = "Sleep during the midday, commonly referred to as siesta, is a common trait of animals that mainly sleep during the night. Work using Drosophila led to the identification of the daywake (dyw) gene, found to have anti-siesta activity. Herein, we show that the DYW protein undergoes signal peptide-dependent secretion, is present in the circulatory system, and accumulates in multiple organs, but, surprisingly, it is not detected in the brain where wake–sleep centers are located. The abundance of DYW in adult flies is regulated by age, sex, temperature, and the splicing efficiency of a nearby thermosensitive intron. We suggest that DYW regulates daytime wake–sleep balance in an indirect, extracerebral manner, via a multi-organ network that interfaces with the circulatory system.",

keywords = "Drosophila, daywake, protein secretion, siesta, sleep, wake",

author = "Gabriel Villegas and Pereira, {Mathew T.} and Love, {Cameron R.} and Isaac Edery",

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T1 - DAYWAKE implicates novel roles for circulating lipid-binding proteins as extracerebral regulators of daytime wake–sleep behavior

AU - Villegas, Gabriel

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AU - Love, Cameron R.

AU - Edery, Isaac

PY - 2024/2

Y1 - 2024/2

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AB - Sleep during the midday, commonly referred to as siesta, is a common trait of animals that mainly sleep during the night. Work using Drosophila led to the identification of the daywake (dyw) gene, found to have anti-siesta activity. Herein, we show that the DYW protein undergoes signal peptide-dependent secretion, is present in the circulatory system, and accumulates in multiple organs, but, surprisingly, it is not detected in the brain where wake–sleep centers are located. The abundance of DYW in adult flies is regulated by age, sex, temperature, and the splicing efficiency of a nearby thermosensitive intron. We suggest that DYW regulates daytime wake–sleep balance in an indirect, extracerebral manner, via a multi-organ network that interfaces with the circulatory system.

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KW - protein secretion

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DAYWAKE implicates novel roles for circulating lipid-binding proteins as extracerebral regulators of daytime wake–sleep behavior

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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