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High-frequency neural activity dysregulation is associated with sleep and psychiatric disorders in BMAL1-deficient animal models.


ABSTRACT: Sleep disturbance led by BMAL1-deficiency has been recognized both in rodent and non-human primate models. Yet it remained unclear how their diurnal brain oscillations were affected upon BMAL1 ablation and what caused the discrepancy in the quantity of sleep between the two species. Here, we investigated diurnal electroencephalographs of BMAL1-deficient mice and cynomolgus monkeys at young adult age and uncovered a shared defect of dysregulated high-frequency oscillations by Kullback-Leibler divergence analysis. We found beta and gamma oscillations were significantly disturbed in a day versus night manner in BMAL1-deficient monkeys, while in mice the beta band difference was less evident. Notably, the dysregulation of beta oscillations was particularly associated with psychiatric behaviors in BMAL1-deficient monkeys, including the occurrence of self-injuring and delusion-like actions. As such psychiatric phenotypes were challenging to uncover in rodent models, our results offered a unique method to study the correlation between circadian clock dysregulation and psychiatric disorders.

SUBMITTER: Sun Y 

PROVIDER: S-EPMC10946332 | biostudies-literature | 2024 Apr

REPOSITORIES: biostudies-literature

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High-frequency neural activity dysregulation is associated with sleep and psychiatric disorders in BMAL1-deficient animal models.

Sun Yu Y   Zhong Mingzhu M   Xu Niannian N   Zhang Xueting X   Sun Huanhuan H   Wang Yan Y   Lu Yong Y   Nie Yanhong Y   Li Qing Q   Sun Qiang Q   Jiang Jian J   Tang Yun-Chi YC   Chang Hung-Chun HC  

iScience 20240301 4


Sleep disturbance led by BMAL1-deficiency has been recognized both in rodent and non-human primate models. Yet it remained unclear how their diurnal brain oscillations were affected upon BMAL1 ablation and what caused the discrepancy in the quantity of sleep between the two species. Here, we investigated diurnal electroencephalographs of BMAL1-deficient mice and cynomolgus monkeys at young adult age and uncovered a shared defect of dysregulated high-frequency oscillations by Kullback-Leibler div  ...[more]

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