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. 2022 Dec;612(7940):512-518.
doi: 10.1038/s41586-022-05450-1. Epub 2022 Dec 7.

Kinase signalling in excitatory neurons regulates sleep quantity and depth

Staci J Kim #  1 Noriko Hotta-Hirashima #  1 Fuyuki Asano #  1 Tomohiro Kitazono #  1 Kanako Iwasaki #  1 Shinya Nakata #  1 Haruna Komiya #  1 Nodoka Asama #  1 Taeko Matsuoka  1 Tomoyuki Fujiyama  1 Aya Ikkyu  1 Miyo Kakizaki  1 Satomi Kanno  1 Jinhwan Choi  1 Deependra Kumar  1 Takumi Tsukamoto  1 Asmaa Elhosainy  1 Seiya Mizuno  2 Shinichi Miyazaki  1 Yousuke Tsuneoka  3 Fumihiro Sugiyama  2 Satoru Takahashi  2 Yu Hayashi  1   4 Masafumi Muratani  2 Qinghua Liu  1   5 Chika Miyoshi  1 Masashi Yanagisawa  6   7   8 Hiromasa Funato  9   10
Affiliations

Kinase signalling in excitatory neurons regulates sleep quantity and depth

Staci J Kim et al. Nature. 2022 Dec.

Abstract

Progress has been made in the elucidation of sleep and wakefulness regulation at the neurocircuit level1,2. However, the intracellular signalling pathways that regulate sleep and the neuron groups in which these intracellular mechanisms work remain largely unknown. Here, using a forward genetics approach in mice, we identify histone deacetylase 4 (HDAC4) as a sleep-regulating molecule. Haploinsufficiency of Hdac4, a substrate of salt-inducible kinase 3 (SIK3)3, increased sleep. By contrast, mice that lacked SIK3 or its upstream kinase LKB1 in neurons or with a Hdac4S245A mutation that confers resistance to phosphorylation by SIK3 showed decreased sleep. These findings indicate that LKB1-SIK3-HDAC4 constitute a signalling cascade that regulates sleep and wakefulness. We also performed targeted manipulation of SIK3 and HDAC4 in specific neurons and brain regions. This showed that SIK3 signalling in excitatory neurons located in the cerebral cortex and the hypothalamus positively regulates EEG delta power during non-rapid eye movement sleep (NREMS) and NREMS amount, respectively. A subset of transcripts biased towards synaptic functions was commonly regulated in cortical glutamatergic neurons through the expression of a gain-of-function allele of Sik3 and through sleep deprivation. These findings suggest that NREMS quantity and depth are regulated by distinct groups of excitatory neurons through common intracellular signals. This study provides a basis for linking intracellular events and circuit-level mechanisms that control NREMS.

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References

    1. Adamantidis, A. R., Gutierrez Herrera, C. & Gent, T. C. Oscillating circuitries in the sleeping brain. Nat. Rev. Neurosci. 20, 746–762 (2019). - DOI
    1. Liu, D. & Dan, Y. A motor theory of sleep–wake control: arousal–action circuit. Annu. Rev. Neurosci. 42, 27–46 (2019). - DOI
    1. Funato, H. et al. Forward-genetics analysis of sleep in randomly mutagenized mice. Nature 539, 378–383 (2016). - DOI
    1. Borbély, A. The two-process model of sleep regulation: beginnings and outlook. J. Sleep Res. 31, e13598 (2022). - DOI
    1. Reichert, S., Pavón Arocas, O. & Rihel, J. The neuropeptide galanin is required for homeostatic rebound sleep following increased neuronal activity. Neuron 104, 370–384.e5 (2019). - DOI

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