限时喂养可防止慢性时差打乱小鼠外周生物钟及其代谢影响。

Time-Restricted Feeding in Mice Prevents the Disruption of the Peripheral Circadian Clocks and Its Metabolic Impact during Chronic Jetlag.

机构信息

Translational Research Center for Gastrointestinal Disorders, Gut Peptide Research Lab, University of Leuven, Gasthuisberg, 3000 Leuven, Belgium.

Translational Research Center for Gastrointestinal Disorders, Laboratory of Digestion and Absorption, University of Leuven, Gasthuisberg, 3000 Leuven, Belgium.

出版信息

Nutrients. 2021 Oct 28;13(11):3846. doi: 10.3390/nu13113846.

DOI:10.3390/nu13113846

PMID:34836101

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8622682/

Abstract

We used time-restricted feeding (TRF) to investigate whether microbial metabolites and the hunger hormone ghrelin can become the dominant entraining factor during chronic jetlag to prevent disruption of the master and peripheral clocks, in order to promote health. Therefore, hypothalamic clock gene and mRNA expression were measured in mice that were either chronically jetlagged and fed ad libitum, jetlagged and fed a TRF diet, or not jetlagged and fed a TRF diet. Fecal short-chain fatty acid (SCFA) concentrations, plasma ghrelin and corticosterone levels, and colonic clock gene mRNA expression were measured. Preventing the disruption of the food intake pattern during chronic jetlag using TRF restored the rhythmicity in hypothalamic clock gene mRNA expression of but not of . TRF countered the changes in plasma ghrelin levels and in hypothalamic mRNA expression induced by chronic jetlag, thereby reestablishing the food intake pattern. Increase in body mass induced by chronic jetlag was prevented. Alterations in diurnal fluctuations in fecal SCFAs during chronic jetlag were prevented thereby re-entraining the rhythmic expression of peripheral clock genes. In conclusion, TRF during chronodisruption re-entrains the rhythms in clock gene expression and signals from the gut that regulate food intake to normalize body homeostasis.

摘要

我们采用限时进食（TRF）的方法来研究微生物代谢产物和饥饿激素 ghrelin 是否可以成为慢性时差打乱期间的主要计时因素，以防止主钟和外周钟的破坏，从而促进健康。因此，我们测量了慢性时差打乱且随意进食、慢性时差打乱且限时进食、以及未受时差打乱且限时进食的小鼠的下丘脑时钟基因和 mRNA 表达。我们还测量了粪便短链脂肪酸（SCFA）浓度、血浆 ghrelin 和皮质酮水平以及结肠时钟基因 mRNA 表达。使用 TRF 防止慢性时差打乱期间进食模式的破坏，恢复了但不是的下丘脑时钟基因 mRNA 表达的节律性。TRF 抵消了慢性时差打乱引起的血浆 ghrelin 水平和下丘脑 mRNA 表达的变化，从而重新建立了进食模式。慢性时差打乱引起的体重增加得到了预防。慢性时差打乱期间粪便 SCFA 昼夜波动的改变得到了预防，从而重新调整了外周时钟基因的节律性表达。总之，TRF 在时钟基因表达和调节进食的肠道信号受到干扰时重新调整节律，使身体的内稳态恢复正常。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/01fe/8622682/b3483fd8213e/nutrients-13-03846-g001.jpg

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Time-Restricted Feeding in Mice Prevents the Disruption of the Peripheral Circadian Clocks and Its Metabolic Impact during Chronic Jetlag.限时喂养可防止慢性时差打乱小鼠外周生物钟及其代谢影响。

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限时喂养可防止慢性时差打乱小鼠外周生物钟及其代谢影响。

Time-Restricted Feeding in Mice Prevents the Disruption of the Peripheral Circadian Clocks and Its Metabolic Impact during Chronic Jetlag.

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