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Never enough sleep? Mouse mutation shown to increase daily amounts and need for sleep

Researchers at University of Tsukuba have shown that a single mutation in a mouse gene increases the amount that mice sleep and their level of non-REM sleep, providing useful insights into how sleep is regulated and how human sleep disorders arise

University of Tsukuba


IMAGE: Figure. A single phosphorylation site, S551 of SIK3 regulates daily sleep amounts and sleep need in mice. The mutations at S551 alter the interaction of SIK3 with PKA and 14-3-3,... view more 

Credit: University of Tsukuba

Tsukuba, Japan - Sleep is vital for adequate functioning across the animal kingdom, but little is known about the physiological mechanisms that regulate it and the reasons for natural variation in people's sleep patterns.

A new study reported in the journal Proceedings of the National Academy of Sciences of the United States of America has shown that a single mutation in a mouse protein has large effects on how the mice sleep and their level of wakefulness when conscious. This work could also shed light on the physiological mechanisms regulating sleep in humans and how they sometimes go awry.

In this study performed by researchers at University of Tsukuba, the team built on their previous work of subjecting mice to a mutagen, screening them for sleep disorders, and then identifying the causative mutated region. Here, the team produced a mutation at a specific position in a protein called SIK3, and then examined the effects on sleep, including durations of wakefulness and sleep, as well as the brain activity reflecting periods of REM and non-REM sleep, and alertness when awake.

The results showed that changing the 551st amino acid of the SIK3 protein caused longer durations of non-REM sleep as well as an increased "sleep need," reflected in particular patterns of brainwave activity when both asleep and awake. The mice were also awake for shorter periods during the night, when they are usually active.

"The findings were particularly interesting in that this mutation affected the periods of sleep lacking rapid eye movement, the largely non-REM part of sleep, while rapid-eye-movement sleep was largely unchanged," coauthor Masashi Yanagisawa says. "This showed that SIK3 is involved in very specific sleep-related regulatory mechanisms."

The team also focused on the molecular mechanisms by which the mutation exerted its effects. They found that the mutant form of SIK3 cannot be recognized or bind to other molecules called PKA and 14-3-3 proteins. This would alter downstream signaling events, ultimately impacting on the system regulating the sleep/wake cycle.

"The features of this amino acid in this protein are evolutionarily conserved across the animal kingdom, so these findings are potentially relevant to studies on sleep in humans," lead author Takato Honda says. "For example, in the condition idiopathic hypersomnia, patients experience a strong need to sleep and are sleepy during the day, like the mice in our study. Our work could help to explain why."


The article "A single phosphorylation site of SIK3 regulates daily sleep amounts and sleep need in mice" is published in Proceedings of the National Academy of Sciences of the USA at doi: 10.1073/pnas.1810823115.

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