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Reciprocal regulation between autism risk gene POGZ and circadian clock
Ting Wu, Jiao He, Chu-Jun Xu, Chi-Yu Li, Pingchuan Zhang, Yanfeng Wang, Shanshan Zhu, Lusi Zhang, Jingtan Zhu, Jing Zhang, Jia-Da Li, Huadie Liu
Ting Wu, Jiao He, Chu-Jun Xu, Chi-Yu Li, Pingchuan Zhang, Yanfeng Wang, Shanshan Zhu, Lusi Zhang, Jingtan Zhu, Jing Zhang, Jia-Da Li, Huadie Liu
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Research Article Development Genetics Neuroscience

Reciprocal regulation between autism risk gene POGZ and circadian clock

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Abstract

Sleep disturbance is a prevalent yet poorly understood comorbidity in autism spectrum disorders (ASD). Here, we uncover a bidirectional regulatory axis connecting the ASD risk gene POGZ to core circadian mechanisms. We demonstrate that Pogz is widely expressed in the suprachiasmatic nucleus (SCN), the central pacemaker of the circadian rhythms, and exhibits circadian oscillations in both the hypothalamus and liver, with its transcription directly regulated by the circadian molecule DBP through a D-box element in its proximal enhancer. Pogz-deficient mice exhibited prolonged circadian periodicity, impaired light-induced phase shift, delayed adaption to an 8-hour advance jet-lag, and reduced SCN c-Fos activation in response to light pulses. Mechanistically, POGZ interacts with and enhances the transcription activity of CREB, a key regulator of light-induced phase resetting. Notably, Pogz deletion leads to ASD-related deficits in social novelty and cognition, with cognitive impairments influenced by both photoperiod and behavioral paradigm. Our findings, thus, reveal a critical, previously unrecognized intersection between an ASD risk gene and circadian clock, offering insights into the pathogenesis of core ASD symptoms and comorbid sleep disturbances.

Authors

Ting Wu, Jiao He, Chu-Jun Xu, Chi-Yu Li, Pingchuan Zhang, Yanfeng Wang, Shanshan Zhu, Lusi Zhang, Jingtan Zhu, Jing Zhang, Jia-Da Li, Huadie Liu

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Figure 3

Circadian behavioral rhythms in Pogz-deficient mice.

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Circadian behavioral rhythms in Pogz-deficient mice.
(A) Circadian locom...
(A) Circadian locomotor activity for Pogzfl/fl (Ctrl) and Pogz-nKO mice under LD and DD conditions. Representative actograms (left), Fast Fourier transformation (FFT) analysis of locomotor activity rhythms (middle), and circadian period length under DD conditions (right) are included. (B) Circadian locomotor activity for Pogzfl/fl (Ctrl) and Pogz-iKO mice under LD and DD conditions. Representative actograms (left), FFT analysis of locomotor activity rhythms (middle), and circadian period length under DD conditions (right) are included. (C) Circadian locomotor activity for WT and Pogz+/– mice under LD and DD conditions. Representative actograms (left), FFT analysis of locomotor activity rhythms (middle), and circadian period length under DD conditions (right) are presented. (D) Circadian locomotor activity for Pogzfl/fl (Ctrl) and Pogz-nKO mice under constant light (LL) conditions. Representative actograms (left), circadian period length under LL conditions (middle), and total locomotor activity under LL conditions (right) are presented. White background indicates the lights-on condition, while the gray background indicates the lights-off condition. All data in this figure are shown as mean ± SEM (n = 6–10). Comparisons in all panels are conducted using unpaired 2-tailed Student’s t test. ****P < 0.0001; ***P < 0.001; *P < 0.05.

Copyright © 2026 American Society for Clinical Investigation
ISSN 2379-3708

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