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RAE1 promotes BMAL1 shuttling and regulates degradation and activity of CLOCK: BMAL1 heterodimer

Xulei Zheng, Xu Zhao, Yingying Zhang, Hao Tan, Bojun Qiu, Tengjiao Ma, Jiarong Zeng, Dachang Tao, Yunqiang Liu, Yilu Lu, Yongxin Ma

Cell Death & Disease 2019 Jan 25


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    Circadian rhythm is an autoregulatory rhythm, which is sustained by various mechanisms. The nucleocytoplasmic shuttling of BMAL1 is essential for CLOCK translocation between cytoplasm and nucleus and maintenance of the correct pace of the circadian clock. Here we showed that RAE1 and NUP98 can promote the degradation of BMAL1 and CLOCK. Knockdown of RAE1 and NUP98 suppressed BMAL1 shuttling, leading to cytoplasm accumulation of CLOCK. Furthermore, Chip assay showed that knockdown of RAE1 and NUP98 can enhance the interaction between CLOCK: BMAL1 and E-box region in the promoters of Per2 and Cry1 while reducing its transcription activation activity. Our present study firstly revealed that RAE1 and NUP98 are critical regulators for BMAL1 shuttling.

    Citation

    Xulei Zheng, Xu Zhao, Yingying Zhang, Hao Tan, Bojun Qiu, Tengjiao Ma, Jiarong Zeng, Dachang Tao, Yunqiang Liu, Yilu Lu, Yongxin Ma. RAE1 promotes BMAL1 shuttling and regulates degradation and activity of CLOCK: BMAL1 heterodimer Cell Death & Disease. 2019 Jan 25;10(2)


    PMID: 30683868

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