Adipose tissue, adipocytes and the circadian timing system

Johnston, Jonathan D.; Frost, Gary; Otway, Daniella

doi:10.1111/j.1467-789x.2009.00665.x

Cited by 31 publications

(27 citation statements)

References 96 publications

(109 reference statements)

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“…This could affect the central clock, which in turn could affect the peripheral clock in adipose tissue, leading to abnormal timing of adipocyte differentiation and the release of adipokines. 32,33 In support, a cross-sectional study observed that adolescents going to bed late tended to have higher BMIs, independent of sleep duration, compared with adolescents who go to bed early. 34 To test if this circadian rhythm hypothesis explains the relationship between sleep duration and adolescent weight, future studies could specifically control for evening electronic screen exposure, and evening food intake; and investigate if variants in clock genes (eg, CLOCK and BAML1) modify the association between sleep duration and adolescent BMI.…”

Section: Figurementioning

confidence: 76%

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Sleep Duration and Adolescent Obesity

Mitchell¹,

Rodriguez

Schmitz³

et al. 2013

Pediatrics

139

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WHAT'S KNOWN ON THIS SUBJECT: Short sleep may be an adolescent obesity risk factor, but most evidence is from crosssectional studies. Three longitudinal studies have investigated the association between sleep duration and adolescent obesity, finding mixed results.WHAT THIS STUDY ADDS: Shorter sleep was associated with increases in BMI from age 14 to 18, especially at the upper tail of the BMI distribution. Increasing daily sleep to 10 hours per day could help to prevent adolescent obesity. abstract OBJECTIVES: Short sleep has been associated with adolescent obesity. Most studies used a cross-sectional design and modeled BMI categories. We sought to determine if sleep duration was associated with BMI distribution changes from age 14 to 18.METHODS: Adolescents were recruited from suburban high schools in Philadelphia when entering ninth grade (n = 1390) and were followedup every 6 months through 12th grade. Height and weight were selfreported, and BMIs were calculated (kg/m 2 ). Hours of sleep were self-reported. Quantile regression was used to model the 10th, 25th, 50th, 75th, and 90th BMI percentiles as dependent variables; study wave and sleep were the main predictors.RESULTS: BMI increased from age 14 to 18, with the largest increase observed at the 90th BMI percentile. Each additional hour of sleep was associated with decreases in BMI at the 10th (-0.04; 95% confidence interval [CI]: -0.11, 0.03), 25th , and 90th (-0.27; 95% CI: -0.45, -0.09) BMI percentiles. The strength of the association was stronger at the upper tail of the BMI distribution. Increasing sleep from 7.5 to 10.0 hours per day at age 18 predicted a reduction in the proportion of adolescents .25 kg/m 2 by 4%.

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Section: Figurementioning

confidence: 76%

“…32,33 Adolescents with short sleep may be more likely to be awake at night and be exposed to light during the dark cycle. This could affect the central clock, which in turn could affect the peripheral clock in adipose tissue, leading to abnormal timing of adipocyte differentiation and the release of adipokines.…”

Section: Figurementioning

confidence: 99%

Sleep Duration and Adolescent Obesity

Mitchell¹,

Rodriguez

Schmitz³

et al. 2013

Pediatrics

139

View full text Add to dashboard Cite

show abstract

“…24 In addition, short sleep duration was found to be associated with reduced leptin and elevated ghrelin, which may increase hunger and appetite, contributing to an increased BMI. 22,25 Short sleep may also disrupt circadian rhythms, leading to abnormal timing of adipocyte differentiation and release of adipokines, 26 which were reported in obese human subjects. 27 The mechanism behind the association between prolonged sleep duration and overweight/obesity is not clear.…”

Section: Discussionmentioning

confidence: 99%

Sleep Duration and Overweight/Obesity in Preschool-Aged Children: A Prospective Study of up to 48,922 Children of the Jiaxing Birth Cohort

Wang

Liu

Wan

et al. 2016

Sleep

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Study Objectives: To examine the association between sleep duration and overweight/obesity in preschool-aged children. Methods: A total of 48,922 3-year old children enrolled in the Jiaxing Birth Cohort, who provided sleep information and anthropometric data, were included in the present study as baseline and were followed up to 5 years of age. Sleep duration was categorized as ≤ 10 hours, 11-12 hours, and ≥ 13 hours. Overweight and obesity were defined according to the cut point criteria in China. Prevalence ratios and risk ratios were used to assess the association between sleep duration and risk of overweight/obesity. Results: In cross-sectional analyses at baseline, the adjusted prevalence ratios (95% confidence interval) of overweight (with 11-12 h of sleep being considered the reference group) for children sleeping ≤ 10 h and ≥ 13 h were 1.13 (1.06-1.20) and 1.16 (1.09-1.24), respectively, whereas the adjusted prevalence ratios (95% confidence interval) of obesity were 1.25 (1.11-1.40) and 1.25 (1.11-1.42). In longitudinal analyses, the adjusted risk ratios (95% confidence interval) of overweight for children sleeping ≤ 10 h and ≥ 13 h were 1.48 (1.26-1.74) and 1.13 (0.96-1.34), while adjusted risk ratios (95% confidence interval) of obesity were 1.77 (1.30-2.40) and 1.19 (0.85-1.66). Restricted cubic splines regression supported U-shaped curvilinear associations between sleep duration and overweight/obesity in both cross-sectional and longitudinal analyses. Conclusions: Both short and overlong sleep duration are associated with a higher risk of overweight/obesity in preschool-aged children. Optimizing sleep duration may be an important modifiable intervention for overweight and obesity.

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“…In the liver, it regulates lipid and glucose homeostasis, acting either as a corepressor or as a coactivator, depending on the target gene (Herzog et al, 2007). Mounting evidence shows that the maintenance of circadian rhythms is essential to sustain a normal metabolic status (Eckel-Mahan and Sassone-Corsi, 2009; Froy, 2010; Johnston et al, 2009; Kohsaka and Bass, 2007) and that an intact circadian clock in the liver is required to maintain systemic glucose homeostasis (Lamia et al, 2008). Here, we show that the metabolic regulator RIP140, while it is not essential for the maintenance of circadian rhythmicity in cells, modulates clock gene expression by potentiating the activity of ROR nuclear receptors.…”

Section: Discussionmentioning

confidence: 99%

Modulation of Clock Gene Expression by the Transcriptional Coregulator Receptor Interacting Protein 140 (RIP140)

et al. 2011

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Circadian rhythms are generated in central and peripheral tissues by an intracellular oscillating timing mechanism known as the circadian clock. Several lines of evidence show a strong and bidirectional interplay between metabolism and circadian rhythms. Receptor interacting protein 140 (RIP140) is a coregulator for nuclear receptors and other transcription factors that represses catabolic pathways in metabolic tissues. Although RIP140 functions as a corepressor for most nuclear receptors, mounting evidence points to RIP140 as a dual coregulator that can repress or activate different sets of genes. Here, we demonstrate that RIP140 mRNA and protein levels are under circadian regulation and identify RIP140 as a modulator of clock gene expression, suggesting that RIP140 can participate in a feedback mechanism affecting the circadian clock. We show that the absence of RIP140 disturbs the basal levels of BMAL1 and other clock genes, reducing the amplitude of their oscillations. In addition, we demonstrate that RIP140 is recruited to retinoid-related orphan receptor (ROR) binding sites on the BMAL1 promoter, directly interacts with RORα, and increases transcription from the BMAL1 promoter in a RORα-dependent manner. These results indicate that RIP140 is not only involved in metabolic control but also acts as a coactivator for RORα, influencing clock gene expression.

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Adipose tissue, adipocytes and the circadian timing system

Cited by 31 publications

References 96 publications

Sleep Duration and Adolescent Obesity

Sleep Duration and Adolescent Obesity

Sleep Duration and Overweight/Obesity in Preschool-Aged Children: A Prospective Study of up to 48,922 Children of the Jiaxing Birth Cohort

Modulation of Clock Gene Expression by the Transcriptional Coregulator Receptor Interacting Protein 140 (RIP140)

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