AI Article Synopsis
- Sleep regulates a biological function that's crucial for recovery, increasing the need for sleep after wakefulness, especially following acute sleep deprivation (SD).
- Research on mice shows that 5-6 hours of SD significantly alters gene expression, with about half of the cortical genes affected, primarily downregulated.
- After 2 hours of recovery sleep (RS), most of the altered gene expression normalizes, linking recovery to processes like metabolism and DNA repair, while some changes related to stress and cholesterol metabolism take longer to adjust and suggest broader effects beyond just sleep.
Article Abstract
Sleep is an essential, tightly regulated biological function. Sleep is also a homeostatic process, with the need to sleep increasing as a function of being awake. Acute sleep deprivation (SD) increases sleep need, and subsequent recovery sleep (RS) discharges it. SD is known to alter brain gene expression in rodents, but it remains unclear which changes are linked to sleep homeostasis, SD-related impairments, or non-sleep-specific effects. To investigate this question, we analyzed RNA-seq data from adult wild-type male mice subjected to 3 and 5-6 hours of SD and 2 and 6 hours of RS after SD. We hypothesized molecular changes associated with sleep homeostasis mirror sleep pressure dynamics as defined by brain electrical activity, peaking at 5-6 hours of SD, and are no longer differentially expressed after 2 hours of RS. We report 5-6 hours of SD produces the largest effect on gene expression, affecting approximately half of the cortical transcriptome, with most differentially expressed genes (DEGs) downregulated. The majority of DEGs normalize after 2 hours of RS and are involved in redox metabolism, chromatin regulation, and DNA damage/repair. Additionally, RS affects gene expression related to mitochondrial metabolism and Wnt-signaling, potentially contributing to its restorative effects. DEGs associated with cholesterol metabolism and stress response do not normalize within 6 hours and may be non-sleep-specific. Finally, DEGs involved in insulin signaling, MAPK signaling, and RNA-binding may mediate the impairing effects of SD. Overall, our results offer insight into the molecular mechanisms underlying sleep homeostasis and the broader effects of SD.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11370348 | PMC |
| http://dx.doi.org/10.1101/2024.08.20.607983 | DOI Listing |
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