CKIε/δ-dependent phosphorylation is a temperature-insensitive, period-determining process in the mammalian circadian clock

Isojima, Yasushi; Nakajima, Masato; Ukai, Hideki; Fujishima, Hiroshi; Yamada, Rikuhiro G.; Masumoto, Koh hei; Kiuchi, Reiko; Ishida, Mayumi; Ukai-Tadenuma, Maki; Minami, Yoichi; Kito, Ryotaku; Nakao, Kazuki; Kishimoto, Wataru; Yoo, Seung Hee; Shimomura, Kazuhiro; Takao, Toshifumi; Takano, Atsuko; Kojima, Toshio; Nonomura, Katsuya; Sakaki, Yoshiyuki; Takahashi, Joseph S.; Ueda, Hiroki R.

doi:10.1073/pnas.0908733106

Cited by 237 publications

(297 citation statements)

References 40 publications

(44 reference statements)

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“…S4A). Given the clock-lengthening effects of CKI inhibitors (27,29,35), we performed in vitro casein kinase Iε inhibition assays. Three compounds (1-3, Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Several recent studies have employed cell-based chemical screening strategy to identify small molecules with clock-altering activities. For example, screening of off-patent drug collections has revealed multiple casein kinase I inhibitors that markedly lengthened the circadian period (27) and a period-shortening compound that acts on glycogen synthase kinase-3β (GSK-3β) (28). More recently, screening of a large collection (170,000) of uncharacterized compounds identified another period-lengthening compound that interacts with multiple kinases, including CKIα previously unknown to be involved in clock regulation (29).…”

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confidence: 99%

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Identification of diverse modulators of central and peripheral circadian clocks by high-throughput chemical screening

Chen

Yoo

Park

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

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175

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The circadian clock coordinates daily oscillations of essential physiological and behavioral processes. Conversely, aberrant clocks with damped amplitude and/or abnormal period have been associated with chronic diseases and aging. To search for small molecules that perturb or enhance circadian rhythms, we conducted a high-throughput screen of approximately 200,000 synthetic compounds using Per2∷lucSV reporter fibroblast cells and validated 11 independent classes of molecules with Bmal1:luciferase reporter cells as well as with suprachiasmatic nucleus and peripheral tissue explants. Four compounds were found to lengthen the period in both central and peripheral clocks, including three compounds that inhibited casein kinase I ε in vitro and a unique benzodiazepine derivative acting through a non-GABA A receptor target. In addition, two compounds acutely induced Per2∷lucSV reporter bioluminescence, delayed the rhythm, and increased intracellular cAMP levels, but caused rhythm damping. Importantly, five compounds shortened the period of peripheral clocks; among them, four compounds also enhanced the amplitude of central and/or peripheral reporter rhythms. Taken together, these studies highlight diverse activities of drug-like small molecules in manipulating the central and peripheral clocks. These small molecules constitute a toolbox for probing clock regulatory mechanisms and may provide putative lead compounds for treatment of clock-associated diseases.

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“…S4A). Given the clock-lengthening effects of CKI inhibitors (27,29,35), we performed in vitro casein kinase Iε inhibition assays. Three compounds (1-3, Fig.…”

Section: Resultsmentioning

confidence: 99%

mentioning

confidence: 99%

Identification of diverse modulators of central and peripheral circadian clocks by high-throughput chemical screening

Chen

Yoo

Park

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

Self Cite

175

191

View full text Add to dashboard Cite

show abstract

“…Nonetheless, rhythmicity persists in these cells and targeting of both CK1ε and CK1δ isoforms is necessary to render MEFs arrhythmic (19). RNA interference targeting of either isoform results in significant period lengthening in a U2OS cell line, but significantly greater effects are observed with CK1δ-directed RNAi (17). These studies suggest that, although both isoforms are likely regulators of the circadian clock, accurate cellular circadian timing can persist in the absence of CK1ε.…”

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confidence: 86%

“…In humans, familial advanced sleep phase syndrome (FASPS) is associated with a T44A missense mutation in CK1δ, leading to hypophosphorylation of PER2 in vitro (12), although in Syrian hamsters and mice, the CK1ε tau mutation results in hyperphosphorylation and subsequent destabilization of its PER targets with significant shortening of behavioral activity cycles to 20 h (13-16). Finally, extensive in vitro screening of pharmacologic compounds shows that the majority of compounds that lengthen the period do so by inhibiting CK1ε/CK1δ-mediated phosphorylation of PER (17).…”

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confidence: 99%

Entrainment of disrupted circadian behavior through inhibition of casein kinase 1 (CK1) enzymes

Meng

Maywood

Bechtold

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

220

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Circadian pacemaking requires the orderly synthesis, posttranslational modification, and degradation of clock proteins. In mammals, mutations in casein kinase 1 (CK1) ε or δ can alter the circadian period, but the particular functions of the WT isoforms within the pacemaker remain unclear. We selectively targeted WT CK1ε and CK1δ using pharmacological inhibitors (PF-4800567 and PF-670462, respectively) alongside genetic knockout and knockdown to reveal that CK1 activity is essential to molecular pacemaking. Moreover, CK1δ is the principal regulator of the clock period: pharmacological inhibition of CK1δ, but not CK1ε, significantly lengthened circadian rhythms in locomotor activity in vivo and molecular oscillations in the suprachiasmatic nucleus (SCN) and peripheral tissue slices in vitro. Period lengthening mediated by CK1δ inhibition was accompanied by nuclear retention of PER2 protein both in vitro and in vivo. Furthermore, phase mapping of the molecular clockwork in vitro showed that PF-670462 treatment lengthened the period in a phase-specific manner, selectively extending the duration of PER2-mediated transcriptional feedback. These findings suggested that CK1δ inhibition might be effective in increasing the amplitude and synchronization of disrupted circadian oscillators. This was tested using arrhythmic SCN slices derived from Vipr2 −/− mice, in which PF-670462 treatment transiently restored robust circadian rhythms of PER2::Luc bioluminescence. Moreover, in mice rendered behaviorally arrhythmic by the Vipr2 −/− mutation or by constant light, daily treatment with PF-670462 elicited robust 24-h activity cycles that persisted throughout treatment. Accordingly, selective pharmacological targeting of the endogenous circadian regulator CK1δ offers an avenue for therapeutic modulation of perturbed circadian behavior.circadian clock | suprachiasmatic nucleus | period protein | Tau mutation | pacemaking

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“…Pharmacological inhibition of CKIϵ/δ has previously been shown to severely disrupt circadian rhythms ( Isojima et al , 2009; Meng et al , 2010). In this study, mouse hepatoma cells in culture were incubated with a specific kinase inhibitor of CKIϵ/δ (PF670462, IC50 for CKIϵ and CKIδ are 7.7 nM and 14 nM, respectively) or DMSO (vehicle) for 48 hours.…”

Section: Resultsmentioning

confidence: 99%

A simple method to measure CLOCK-BMAL1 DNA binding activity in tissue and cell extracts

Gillessen

Kwak²,

Tamayo³

2017

F1000Res

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The proteins CLOCK and BMAL1 form a heterodimeric transcription factor essential to circadian rhythms in mammals. Daily rhythms of CLOCK-BMAL1 DNA binding activity are known to oscillate with target gene expression in vivo. Here we present a highly sensitive assay that recapitulates native CLOCK-BMAL1 DNA binding rhythms from crude tissue extracts, which we call the Clock Protein-DNA Binding Assay (CPDBA). This method can detect less than 2-fold differences in DNA binding activity, and can deliver results in two hours or less using 10 microliters or less of crude extract, while requiring neither specialized equipment nor expensive probes. To demonstrate the sensitivity and versatility of this assay, we show that enzymatic removal of phosphate groups from proteins in tissue extracts or pharmacological inhibition of casein kinase I in cell culture increased CLOCK-BMAL1 DNA binding activity by ~1.5 to ~2 fold, as measured by the CPDBA. In addition, we show that the CPDBA can measure CLOCK-BMAL1 binding to reconstituted chromatin. The CPDBA is a sensitive, fast, efficient and versatile probe of clock function.

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CKIε/δ-dependent phosphorylation is a temperature-insensitive, period-determining process in the mammalian circadian clock

Cited by 237 publications

References 40 publications

Identification of diverse modulators of central and peripheral circadian clocks by high-throughput chemical screening

Identification of diverse modulators of central and peripheral circadian clocks by high-throughput chemical screening

Entrainment of disrupted circadian behavior through inhibition of casein kinase 1 (CK1) enzymes

A simple method to measure CLOCK-BMAL1 DNA binding activity in tissue and cell extracts

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