Takeshi Sakurai

Overview

Explore the profile of Takeshi Sakurai including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 364

Citations 12129

Followers 0

Related Specialties

Neurology

Biochemistry

Science

Top 10 Co-Authors

Masashi Yanagisawa

Kunishige Kataoka

Michihiro Mieda

Ryohei Kanzaki

Natsuko Tsujino

Akihiro Yamanaka

Masahito Kanai

Emi Hasegawa

Hidefumi Mitsuno

Joseph D Buxbaum

Published In

J Neurosci

Biochem Biophys Res Commun

Proc Natl Acad Sci U S A

PLoS One

Front Neurosci

Affiliations

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Recent Articles

Maternal immune activation followed by peripubertal stress combinedly produce reactive microglia and confine cerebellar cognition

Hikosaka M, Parvez M, Yamawaki Y, Oe S, Liang Y, Wada Y, et al.

Commun Biol . 2025 Mar; 8(1):296. PMID: 40033126

The functional alteration of microglia arises in brains exposed to external stress during early development. Pathophysiological findings of neurodevelopmental disorders such as schizophrenia and autism spectrum disorder suggest cerebellar functional...

Parameterized resetting model captures dose-dependent entrainment of the mouse circadian clock

Masuda K, Yoshimoto R, Li R, Sakurai T, Hirano A

Nat Commun . 2025 Feb; 16(1):1421. PMID: 39915501

The phase response curve (PRC) represents the time-dependent changes in circadian rhythm phase following internal or external stimuli. However, this time dependence complicates PRC measurement and quantification owing to its...

Utility of complexity analysis in electroencephalography and electromyography for automated classification of sleep-wake states in mice

Furutani N, Saito Y, Niwa Y, Katsuyama Y, Nariya Y, Kikuchi M, et al.

Sci Rep . 2025 Jan; 15(1):3080. PMID: 39856071

We explore an innovative approach to sleep stage analysis by incorporating complexity features into sleep scoring methods for mice. Traditional sleep scoring relies on the power spectral features of electroencephalogram...

Central amygdala NPBWR1 neurons facilitate social novelty seeking and new social interactions

Soya S, Toda K, Sakurai K, Cherasse Y, Saito Y, Abe M, et al.

Sci Adv . 2025 Jan; 11(3):eadn1335. PMID: 39813346

The formation of new social interactions is vital for social animals, but the underlying neural mechanisms remain poorly understood. We identified CeA neurons, a population in central amygdala expressing neuropeptide...

Prefrontal synaptic regulation of homeostatic sleep pressure revealed through synaptic chemogenetics

Sawada T, Iino Y, Yoshida K, Okazaki H, Nomura S, Shimizu C, et al.

Science . 2024 Sep; 385(6716):1459-1465. PMID: 39325885

Sleep is regulated by homeostatic processes, yet the biological basis of sleep pressure that accumulates during wakefulness, triggers sleep, and dissipates during sleep remains elusive. We explored a causal relationship...

A pontine-medullary loop crucial for REM sleep and its deficit in Parkinson's disease

Kashiwagi M, Beck G, Kanuka M, Arai Y, Tanaka K, Tatsuzawa C, et al.

Cell . 2024 Sep; 187(22):6272-6289.e21. PMID: 39303715

Identifying the properties of the rapid eye movement (REM) sleep circuitry and its relation to diseases has been challenging due to the neuronal heterogeneity of the brainstem. Here, we show...

A coupled model between circadian, cell-cycle, and redox rhythms reveals their regulation of oxidative stress

Masuda K, Sakurai T, Hirano A

Sci Rep . 2024 Jul; 14(1):15479. PMID: 38969743

Most organisms possess three biological oscillators, circadian clock, cell cycle, and redox rhythm, which are autonomous but interact each other. However, whether their interactions and autonomy are beneficial for organisms...

An N-terminal and ankyrin repeat domain interactome of Shank3 identifies the protein complex with the splicing regulator Nono in mice

Okuzono S, Fujii F, Setoyama D, Taira R, Shinmyo Y, Kato H, et al.

Genes Cells . 2024 Jul; 29(9):746-756. PMID: 38964745

An autism-associated gene Shank3 encodes multiple splicing isoforms, Shank3a-f. We have recently reported that Shank3a/b-knockout mice were more susceptible to kainic acid-induced seizures than wild-type mice at 4 weeks of...

Crucial role of TFAP2B in the nervous system for regulating NREM sleep

Nakai A, Kashiwagi M, Fujiyama T, Iwasaki K, Hirano A, Funato H, et al.

Mol Brain . 2024 Feb; 17(1):13. PMID: 38413970

The AP-2 transcription factors are crucial for regulating sleep in both vertebrate and invertebrate animals. In mice, loss of function of the transcription factor AP-2β (TFAP2B) reduces non-rapid eye movement...

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Regulation of REM sleep in mice: The role of dopamine and serotonin function in the basolateral amygdala

Hasegawa E, Li Y, Sakurai T

Neurosci Res . 2023 Sep; 200:28-33. PMID: 37696450

Animals have a sleep cycle that involves the repetitive occurrence of non-rapid eye movement (NREM) sleep and rapid eye movement (REM) sleep. In a previous study, we discovered that a...