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Molecular mechanism of the repressive phase of the mammalian circadian clock

Xuemei Cao, Yanyan Yang, Christopher P. Selby, Zhenxing Liu, Aziz Sancar

2020Proceedings of the National Academy of Sciences184 citationsDOIOpen Access PDF

Abstract

The mammalian circadian clock consists of a transcription-translation feedback loop (TTFL) composed of CLOCK-BMAL1 transcriptional activators and CRY-PER transcriptional repressors. Previous work showed that CRY inhibits CLOCK-BMAL1-activated transcription by a "blocking"-type mechanism and that CRY-PER inhibits CLOCK-BMAL1 by a "displacement"-type mechanism. While the mechanism of CRY-mediated repression was explained by both in vitro and in vivo experiments, the CRY-PER-mediated repression in vivo seemed in conflict with the in vitro data demonstrating PER removes CRY from the CLOCK-BMAL1-E-box complex. Here, we show that CRY-PER participates in the displacement-type repression by recruiting CK1δ to the nucleus and mediating an increased local concentration of CK1δ at CLOCK-BMAL1-bound promoters/enhancers and thus promoting the phosphorylation of CLOCK and dissociation of CLOCK-BMAL1 along with CRY from the E-box. Our findings bring clarity to the role of PER in the dynamic nature of the repressive phase of the TTFL.

Topics & Concepts

Mechanism (biology)Circadian clockCircadian rhythmPhase (matter)Molecular clockNeuroscienceBiologyChemistryGeneticsPhilosophyGeneEpistemologyPhylogeneticsOrganic chemistryCircadian rhythm and melatoninSpaceflight effects on biologyPsychological and Temporal Perspectives Research
Molecular mechanism of the repressive phase of the mammalian circadian clock | Litcius