Browsing by Subject "Period Circadian Proteins"

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    Dissociation between diurnal cycles in locomotor activity, feeding behavior and hepatic PERIOD2 expression in chronic alcohol-fed mice
    (Elsevier, 2015-06) Zhou, Peng; Werner, John H.; Lee, Donghoon; Sheppard, Aaron D.; Liangpunsakul, Suthat; Duffield, Giles E.; Department of Medicine, IU School of Medicine
    Chronic alcohol consumption contributes to fatty liver disease. Our studies revealed that the hepatic circadian clock is disturbed in alcohol-induced hepatic steatosis, and effects of chronic alcohol administration upon the clock itself may contribute to steatosis. We extended these findings to explore the effects of chronic alcohol treatment on daily feeding and locomotor activity patterns. Mice were chronically pair-fed ad libitum for 4 weeks using the Lieber-DeCarli liquid diet, with calorie-controlled liquid and standard chow diets as control groups. Locomotor activity, feeding activity, and real-time bioluminescence recording of PERIOD2::LUCIFERASE expression in tissue explants were measured. Mice on liquid control and chow diets exhibited normal profiles of locomotor activity, with a ratio of 22:78% day/night activity and a peak during early night. This pattern was dramatically altered in alcohol-fed mice, marked by a 49:51% ratio and the absence of a distinct peak. While chow-diet fed mice had a normal 24:76% ratio of feeding activity, with a peak in the early night, this pattern was dramatically altered in both liquid-diet groups: mice had a 43:57% ratio, and an absence of a distinct peak. Temporal differences were also observed between the two liquid-diet groups during late day. Cosinor analysis revealed a ∼4-h and ∼6-h shift in the alcohol-fed group feeding and locomotor activity rhythms, respectively. Analysis of hepatic PER2 expression revealed that the molecular clock in alcohol-fed and control liquid-diet mice was shifted by ∼11 h and ∼6 h, respectively. No differences were observed in suprachiasmatic nucleus explants, suggesting that changes in circadian phase in the liver were generated independently from the central clock. These results suggest that chronic alcohol consumption and a liquid diet can differentially modulate the daily rhythmicity of locomotor and feeding behaviors, aspects that might contribute to disturbances in the circadian timing system and development of hepatic steatosis.
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    Persistent Changes in Stress-Regulatory Genes in Pregnant Women or Children Exposed Prenatally to Alcohol
    (Wiley, 2019-07-22) Sarkar, Dipak K.; Gangisetty, Omkaram; Wozniak, Jeffrey R.; Eckerle, Judith K.; Georgieff, Michael K.; Foroud, Tatiana M.; Wetherill, Leah; Wertelecki, Wladimir; Chambers, Christina D.; Riley, Edward; Zymak-Zakutnya, Natalya; Yevtushok, Lyubov; Medical and Molecular Genetics, School of Medicine
    Background: We have recently shown that binge or heavy levels of alcohol drinking increases DNA methylation and reduces gene expression of POMC and PER2 in adult human subjects (Gangisetty et al., 2019). One hypothesis would be that methylation of these two genes is consistently associated with alcohol exposure and could be used as biomarkers to predict risk of PAE. Results of the present study provided some support for this hypothesis. Methods: We conducted a series of studies to determine DNA methylation changes in stress regulatory genes proopiomelanocortin (POMC) and period 2 (PER2) using biological samples from three separate cohorts of patients i) pregnant women who consumed moderate to high levels of alcohol or low/unexposed controls, ii) children with PAE and non-alcohol exposed controls, and iii) children with PAE treated with or without choline. Results: We found pregnant women who consumed moderate to high levels of alcohol and gave birth to PAE children had higher DNA methylation of POMC and PER2. PAE children also had increased methylation of POMC and PER2. The differences in the gene methylation of PER2 and POMC between PAE and controls did not differ by maternal smoking status. PAE children had increased levels of stress hormone cortisol and adrenocorticotropic hormone (ACTH). Choline supplementation reduced DNA hypermethylation and increased expression of POMC and PER2 in children with PAE. Conclusions: These data suggest that PAE significantly elevates DNA methylation of POMC and PER2 and increases levels of stress hormones. Furthermore, these results suggest the possibility that measuring DNA methylation levels of PER2 and POMC in biological samples from pregnant women or from children may be useful for identification of a woman or a child with PAE.