Circadian Mechanisms of Food Anticipatory Rhythms in Rats Fed Once or Twice Daily: Clock Gene and Endocrine Correlates

Patton, Danica F.; Katsuyama, Ângela M.; Pavlovski, Ilya; Michalik, Mateusz; Patterson, Zachary R.; Parfyonov, Maksim; Smit, Andrea N.; Marchant, Elliott G.; Chung, John J.; Abizaid, Alfonso; Storch, Kai‐Florian; Iglesia, Horacio de la; Mistlberger, Ralph E.

doi:10.1371/journal.pone.0112451

Cited by 35 publications

(30 citation statements)

References 79 publications

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“…Food anticipatory activity is characterized by elevated hormone levels (e.g. the glucocorticoid corticosterone and ghrelin) and increased core body temperature, and is sustained under temporal food restriction even in BMAL1‐deficient and SCN‐lesioned mice . The location and the mechanism by which the food‐entrained master regulator is entrained by food stimuli and how it subsequently regulates subordinate, peripheral tissues is however unknown.…”

Section: The Role Of Chrono‐nutritionmentioning

confidence: 99%

Chrono‐immunology: progress and challenges in understanding links between the circadian and immune systems

2015

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SummaryDevelopment of inflammatory diseases, such as metabolic syndrome and cancer, is prevalent in individuals that encounter continuous disruption of their internal clock. Further, daily oscillations in susceptibility to infection as well as a multitude of other immunological processes have been described. Much progress has been made and various mechanisms have been proposed to explain circadian variations in immunity; yet much is still unknown. Understanding the crosstalk between the circadian and the immune systems will allow us to manipulate clock outputs to prevent and treat inflammatory diseases in individuals at risk. This review briefly summarizes current knowledge about circadian rhythms and their role in the immune system and highlights progress and challenges in chronoimmunological research.

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Section: The Role Of Chrono‐nutritionmentioning

confidence: 99%

Chrono‐immunology: progress and challenges in understanding links between the circadian and immune systems

2015

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“…A number of studies suggest that circadian rhythmicity is important, primarily for physiologically anticipatory activities45464748. Disruption in circadian rhythms often accompanies other clinical conditions.…”

Section: Discussionmentioning

confidence: 99%

Temporal variations in presynaptic release probability in the lateral habenula

Park

Cheon

Kim

et al. 2017

Sci Rep

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Rhythmicity plays an important role in a number of biological systems. The habenular complex is reported to contain an intrinsic molecular clock and to show rhythmic expression of circadian clock genes and proteins including per2/PER2. In this study, we observed that there is a temporal rhythmicity in the presynaptic efficacy of the lateral habenula (LHb) neurons. We collected a substantial number of recordings at different time points of the day during the light phase. The frequency and amplitude of spontaneous excitatory transmission were increased in the afternoon compared to recordings performed in the morning. In addition, the paired-pulse ratio and the success rate of minimal stimulation were also significantly different depending on the time of the recording. We did not see any significant differences in recordings obtained from pyramidal neurons of the hippocampus in the same brain slices. Taken together, our data indicates that the LHb exhibits intrinsic temporal oscillation in basal neurotransmission and in presynaptic release probability. Given the rapidly growing interest on the function of the LHb, more careful examination of synaptic transmission in the LHb is thus required.

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“…In vertebrates, food entrainment has a strong effect on peripheral clocks in organs like stomach, liver, adrenal glands etc. but does not affect the suprachiasmatic nucleus (SCN), the central brain clock [22,25,26]. Similarly, food entrainment experiments in Drosophila showed effects on peripheral clocks in fat bodies but no effect on the brain clock [27].…”

Section: Introductionmentioning

confidence: 99%

Time-restricted foraging under natural light/dark condition shifts the molecular clock in the honey bee,Apis mellifera

Jain

Brockmann

2018

Preprint

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25Honey bees have a remarkable sense of time and individual honey bee foragers are capable to 26 adjust their foraging activity with respect to the time of food availability. Although, there is 27 plenty of experimental evidence that foraging behavior is guided by the circadian clock, 28nothing is known about the underlying cellular and molecular mechanisms. Here we present a 29 first study exploring whether the time-restricted foraging under natural light-dark condition 30 affects the molecular clock in honey bees. In an enclosed flight chamber (12m x 4m x 4m), 31 food was presented either for 2 hours in the morning or 2 hours in the afternoon for several 32 consecutive days and daily cycling of the two major clock genes, cryptochrome2 (cry2) and 33 period (per), were analyzed in three different tissues involved in feeding-related behaviors: 34 brain, antennae and subesophageal ganglion (SEG). We found that morning and afternoon 35 trained foragers showed significant phase-differences in the cycling of both clock genes in all 36 three tissues. Furthermore, the phase-differences were more pronounced when the feeder was

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Circadian Mechanisms of Food Anticipatory Rhythms in Rats Fed Once or Twice Daily: Clock Gene and Endocrine Correlates

Cited by 35 publications

References 79 publications

Chrono‐immunology: progress and challenges in understanding links between the circadian and immune systems

Chrono‐immunology: progress and challenges in understanding links between the circadian and immune systems

Temporal variations in presynaptic release probability in the lateral habenula

Time-restricted foraging under natural light/dark condition shifts the molecular clock in the honey bee,Apis mellifera

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