A single phosphorylation site of SIK3 regulates daily sleep amounts and sleep need in mice.
- Journal:
- Proceedings of the National Academy of Sciences of the United States of America
- Published:
- DOI:
- 10.1073/pnas.1810823115
- Affiliations:
- 7
- Authors:
- 11
Research Highlight
You are getting sleepy — specific mutation could explain why
© Clemens Peters/EyeEm/Getty
In a real snoozer of a scientific discovery, researchers from the University of Tsukuba have zeroed in on the specific position within a protein called SIK3, which underpins excessive sleepiness in mice.
Building on their earlier discovery that mice with a mutant form of SIK3 require more sleep than usual, the researchers found that deleting or mutating just one particular amino acid in the protein impeded the attachment of phosphate tags, a process that normally keeps the activity of the SIK3 in check.
Without this regulatory control, the mice slept more because they had longer durations of non-dreaming sleep. However, rapid-eye-movement sleep — in which the brain is most active, allowing for intense dreams — was largely unaffected. This shows that SIK3 helps mediate the sleep cycle in a stage-specific manner.
The findings could lead to new treatments for people who experience excessive sleepiness and have trouble staying awake.
References
- PNAS 115, 10458–10463 (2018). doi: 10.1073/pnas.1810823115
Institutions | Authors | Share |
---|---|---|
University of Tsukuba, Japan | 0.92 | |
Toho University, Japan | 0.05 | |
The University of Texas Southwestern Medical Center (UT Southwestern Medical Center), United States of America (USA) | 0.03 |