E3 Ubiquitin Ligase UBR5 Modulates Circadian Rhythm by Facilitating the Ubiquitination and Degradation of the Key Clock Transcription Factor BMAL1

Overview

Journal Acta Pharmacol Sin

Specialty Pharmacology

Date 2024 May 13

PMID 38740904

Authors

Chun-Yan Duan

Yue Li

Hao-Yu Zhi

Yao Tian

Zheng-Yun Huang

Su-Ping Chen

Yang Zhang

Qing Liu

Liang Zhou

Xiao-Gang Jiang

Kifayat Ullah

Qing Guo

Zhao-hui Liu

Ying Xu

Jun-Hai Han

Jiajie Hou

Darran P OConnor

Guoqiang Xu

Affiliations

Soon will be listed here.

Abstract

The circadian clock is the inner rhythm of life activities and is controlled by a self-sustained and endogenous molecular clock, which maintains a ~ 24 h internal oscillation. As the core element of the circadian clock, BMAL1 is susceptible to degradation through the ubiquitin-proteasome system (UPS). Nevertheless, scant information is available regarding the UPS enzymes that intricately modulate both the stability and transcriptional activity of BMAL1, affecting the cellular circadian rhythm. In this work, we identify and validate UBR5 as a new E3 ubiquitin ligase that interacts with BMAL1 by using affinity purification, mass spectrometry, and biochemical experiments. UBR5 overexpression induced BMAL1 ubiquitination, leading to diminished stability and reduced protein level of BMAL1, thereby attenuating its transcriptional activity. Consistent with this, UBR5 knockdown increases the BMAL1 protein. Domain mapping discloses that the C-terminus of BMAL1 interacts with the N-terminal domains of UBR5. Similarly, cell-line-based experiments discover that HYD, the UBR5 homolog in Drosophila, could interact with and downregulate CYCLE, the BMAL1 homolog in Drosophila. PER2-luciferase bioluminescence real-time reporting assay in a mammalian cell line and behavioral experiments in Drosophila reveal that UBR5 or hyd knockdown significantly reduces the period of the circadian clock. Therefore, our work discovers a new ubiquitin ligase UBR5 that regulates BMAL1 stability and circadian rhythm and elucidates the underlying molecular mechanism. This work provides an additional layer of complexity to the regulatory network of the circadian clock at the post-translational modification level, offering potential insights into the modulation of the dysregulated circadian rhythm.

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