Sophocles' Oedipus: Evidence and Self-Conviction

CLOCK is a positive component of a transcription/ translation-based negative feedback loop of the central circadian oscillator in the suprachiasmatic nucleus in mammals. To examine CLOCK-regulated circadian transcription in peripheral tissues, we performed microarray analyses using liver RNA isolated from Clock mutant mice. We also compared expression profiles with those of Cryptochromes (Cry1 and Cry2) double knockout mice. We identified more than 100 genes that fluctuated from day to night and of which expression levels were decreased in Clock mutant mice. In Cry-deficient mice, the expression levels of most CLOCK-regulated genes were elevated to the upper range of normal oscillation. Most of the screened genes had a CLOCK/BMAL1 binding site (E box) in the 5-flanking region. We found that CLOCK was absolutely concerned with the circadian transcription of one type of liver genes (such as DBP, TEF, and Usp2) and partially with another (such as mPer1, mPer2, mDec1, Nocturnin, P450 oxidoreductase, and FKBP51) because the latter were damped but remained rhythmic in the mutant mice. Our results showed that CLOCK and CRY proteins are involved in the transcriptional regulation of many circadian output genes in the mouse liver. In addition to being a core component of the negative feedback loop that drives the circadian oscillator, CLOCK also appears to be involved in various physiological functions such as cell cycle, lipid metabolism, immune functions, and proteolysis in peripheral tissues.

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Casein Kinase 1 Delta Regulates the Pace of the Mammalian Circadian Clock

Etchegaray

Machida

Noton

et al. 2009

Molecular and Cellular Biology

198

192

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Both casein kinase 1 delta (CK1␦) and epsilon (CK1) phosphorylate core clock proteins of the mammalian circadian oscillator. To assess the roles of CK1␦ and CK1 in the circadian clock mechanism, we generated mice in which the genes encoding these proteins (Csnk1d and Csnk1e, respectively) could be disrupted using the Cre-loxP system. Cre-mediated excision of the floxed exon 2 from Csnk1d led to in-frame splicing and production of a deletion mutant protein (CK1␦ ⌬2 ). This product is nonfunctional. Mice homozygous for the allele lacking exon 2 die in the perinatal period, so we generated mice with liver-specific disruption of CK1␦. In livers from these mice, daytime levels of nuclear PER proteins, and PER-CRY-CLOCK complexes were elevated. In vitro, the half-life of PER2 was increased by ϳ20%, and the period of PER2::luciferase bioluminescence rhythms was 2 h longer than in controls. Fibroblast cultures from CK1␦-deficient embryos also had long-period rhythms. In contrast, disruption of the gene encoding CK1 did not alter these circadian endpoints. These results reveal important functional differences between CK1␦ and CK1: CK1␦ plays an unexpectedly important role in maintaining the 24-h circadian cycle length.Circadian rhythms are rhythms in gene expression, metabolism, physiology, and behavior that persist in constant environmental conditions with a cycle length near 24 h. In mammals, the circadian timing system is hierarchical. The primary pacemaker regulating circadian behavioral rhythms is located in the suprachiasmatic nuclei (SCN) of the hypothalamus. Most cell types express circadian clock genes and will express rhythmicity in vitro. In vivo, the SCN entrains peripheral oscillators through a complex set of physiological and hormonal rhythms (31,32,36).At the molecular level, circadian oscillations are governed by a cell-autonomous negative-feedback loop in which transcription factors drive the expression of their own negative regulators, leading to oscillation between periods of transcriptional activation and repression (reviewed in references 32 and 36). The bHLH-PAS containing transcription factors CLOCK or NPAS2 form heterodimers with BMAL1. These heterodimers binds to E-box elements within regulatory regions of Period (Per1, Per2, and Per3) and Cryptochrome (Cry1 and Cry2) genes to stimulate their transcription. Approximately 12 h after transcriptional activation, PER and CRY proteins reach concentrations sufficient to form repressor complexes that inhibit the activity of the CLOCK/NPAS2:BMAL1 heterodimer, reducing the transcription of Per and Cry genes and subsequently relieving PER/CRY-mediated negative feedback. E-box-mediated expression of other transcription factors, including members of the DBP/HLF/TEF and nuclear orphan receptor families (e.g., Rev-Erb␣ and ROR-A), provides a mechanism for clock control of genes with diverse promoters and with gene expression peaks occurring at a variety of phases.Posttranslational modifications of circadian clock proteins play a well-established role in the re...

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Disrupted fat absorption attenuates obesity induced by a high‐fat diet in Clock mutant mice

et al. 2005

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The Clock gene is a core component of the circadian clock in mammals. We show here that serum levels of triglyceride and free fatty acid were significantly lower in circadian Clock mutant ICR than in wild-type control mice, whereas total cholesterol and glucose levels did not differ. Moreover, an increase in body weight induced by a high-fat diet was attenuated in homozygous Clock mutant mice. We also found that dietary fat absorption was extremely impaired in Clock mutant mice. Circadian expressions of cholecystokinin-A (CCK-A) receptor and lipase mRNAs were damped in the pancreas of Clock mutant mice. We therefore showed that a Clock mutation attenuates obesity induced by a high-fat diet in mice with an ICR background through impaired dietary fat absorption. Our results suggest that circadian clock molecules play an important role in lipid homeostasis in mammals.

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Clock mutation affects circadian regulation of circulating blood cells

Oishi¹,

Ohkura²,

Kadota

et al. 2006

J Circadian Rhythms

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Carcinogenicity evaluation for the application of carbon nanotubes as biomaterials in rasH2 mice

Takanashi

Hara

Aoki

et al. 2012

Sci Rep

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The application of carbon nanotubes (CNTs) as biomaterials is of wide interest, and studies examining their application in medicine have had considerable significance. Biological safety is the most important factor when considering the clinical application of CNTs as biomaterials, and various toxicity evaluations are required. Among these evaluations, carcinogenicity should be examined with the highest priority; however, no report using transgenic mice to evaluate the carcinogenicity of CNTs has been published to date. Here, we performed a carcinogenicity test by implanting multi-walled CNTs (MWCNTs) into the subcutaneous tissue of rasH2 mice, using the carbon black present in black tattoo ink as a reference material for safety. The rasH2 mice did not develop neoplasms after being injected with MWCNTs; instead, MWCNTs showed lower carcinogenicity than carbon black. Such evaluations should facilitate the clinical application and development of CNTs for use in important medical fields.

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Kazuhiko Machida

Genome-wide Expression Analysis of Mouse Liver Reveals CLOCK-regulated Circadian Output Genes

Casein Kinase 1 Delta Regulates the Pace of the Mammalian Circadian Clock

Disrupted fat absorption attenuates obesity induced by a high‐fat diet in Clock mutant mice

Clock mutation affects circadian regulation of circulating blood cells

Carcinogenicity evaluation for the application of carbon nanotubes as biomaterials in rasH2 mice

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