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UBR4/POE facilitates secretory trafficking to maintain circadian clock synchrony

Sara Hegazi, Arthur H. Cheng, Joshua J. Krupp, Takafumi Tasaki, Jiashu Liu, Daniel A. Szulc, Harrod H. Ling, Julian Rios Garcia, Shavanie Seecharran, Tayebeh Basiri, Mehdi Amiri, Zobia Anwar, Safa Ahmad, Kamar Nayal, Nahum Sonenberg, Baohua Liu, Hai‐Ling Margaret Cheng, Joel D. Levine, Hai‐Ying Mary Cheng

2022Nature Communications21 citationsDOIOpen Access PDF

Abstract

Ubiquitin ligases control the degradation of core clock proteins to govern the speed and resetting properties of the circadian pacemaker. However, few studies have addressed their potential to regulate other cellular events within clock neurons beyond clock protein turnover. Here, we report that the ubiquitin ligase, UBR4/POE, strengthens the central pacemaker by facilitating neuropeptide trafficking in clock neurons and promoting network synchrony. Ubr4-deficient mice are resistant to jetlag, whereas poe knockdown flies are prone to arrhythmicity, behaviors reflective of the reduced axonal trafficking of circadian neuropeptides. At the cellular level, Ubr4 ablation impairs the export of secreted proteins from the Golgi apparatus by reducing the expression of Coronin 7, which is required for budding of Golgi-derived transport vesicles. In summary, UBR4/POE fulfills a conserved and unexpected role in the vesicular trafficking of neuropeptides, a function that has important implications for circadian clock synchrony and circuit-level signal processing.

Topics & Concepts

Circadian clockCircadian rhythmCell biologyBiologyBiological clockComputer scienceNeuroscienceCircadian rhythm and melatoninPhotoreceptor and optogenetics researchLight effects on plants
UBR4/POE facilitates secretory trafficking to maintain circadian clock synchrony | Litcius