限时进食调节小鼠子宫生物钟的昼夜节律。

Time-Restricted Feeding Regulates Circadian Rhythm of Murine Uterine Clock.

作者信息

Hosono Takashi, Ono Masanori, Daikoku Takiko, Mieda Michihiro, Nomura Satoshi, Kagami Kyosuke, Iizuka Takashi, Nakata Rieko, Fujiwara Tomoko, Fujiwara Hiroshi, Ando Hitoshi

机构信息

Department of Obstetrics and Gynecology, Graduate School of Medical Science, Kanazawa University, Kanazawa, Japan.

Institute for Experimental Animals, Advanced Science Research Center, Graduate School of Medical Science, Kanazawa University, Kanazawa, Japan.

出版信息

Curr Dev Nutr. 2021 Apr 9;5(5):nzab064. doi: 10.1093/cdn/nzab064. eCollection 2021 May.

DOI:10.1093/cdn/nzab064

PMID:33981944

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8099714/

Abstract

BACKGROUND

Skipping breakfast is associated with dysmenorrhea in young women. This suggests that the delay of food intake in the active phase impairs uterine functions by interfering with circadian rhythms.

OBJECTIVES

To examine the relation between the delay of feeding and uterine circadian rhythms, we investigated the effects of the first meal occasion in the active phase on the uterine clock.

METHODS

Zeitgeber time (ZT) was defined as ZT0 (08:45) with lights on and ZT12 (20:45) with lights off. Young female mice (8 wk of age) were divided into 3 groups: group I (ad libitum consumption), group II (time-restricted feeding during ZT12-16, initial 4 h of the active period), and group III (time-restricted feeding during ZT20-24, last 4 h of the active period, a breakfast-skipping model). After 2 wk of dietary restriction, mice in each group were killed at 4-h intervals and the expression profiles of uterine clock genes, (brain and muscle aryl hydrocarbon receptor nuclear translocator-like protein 1), (period circadian clock 1), , and (cryptochrome 1), were examined.

RESULTS

qPCR and western blot analyses demonstrated synchronized circadian clock gene expression within the uterus. Immunohistochemical analysis confirmed that BMAL1 protein expression was synchronized among the endometrium and myometrium. In groups I and II, mRNA expression of was elevated after ZT12 at the start of the active phase. In contrast, expression was elevated just after ZT20 in group III, showing that the uterine clock rhythm had shifted 8 h backward. The changes in BMAL1 protein expression were confirmed by western blot analysis.

CONCLUSIONS

This study is the first to indicate that time-restricted feeding regulates a circadian rhythm of the uterine clock that is synchronized throughout the uterine body. These findings suggest that the uterine clock system is a new candidate to explain the etiology of breakfast skipping-induced uterine dysfunction.

摘要

背景

不吃早餐与年轻女性痛经有关。这表明活跃期进食延迟通过干扰昼夜节律损害子宫功能。

目的

为了研究进食延迟与子宫昼夜节律之间的关系，我们调查了活跃期第一餐时间对子宫生物钟的影响。

方法

将授时时间（ZT）定义为开灯时为ZT0（08:45），关灯时为ZT12（20:45）。将年轻雌性小鼠（8周龄）分为3组：第一组（自由进食），第二组（在ZT12 - 16期间限时进食，活跃期的最初4小时），第三组（在ZT20 - 24期间限时进食，活跃期的最后4小时，不吃早餐模型）。经过2周的饮食限制后，每组小鼠每隔4小时处死，检测子宫生物钟基因（脑和肌肉芳烃受体核转运蛋白样蛋白1）、（周期昼夜节律钟1）、和（隐花色素1）的表达谱。

结果

qPCR和蛋白质印迹分析表明子宫内生物钟基因表达同步。免疫组织化学分析证实BMAL1蛋白表达在内膜和肌层之间是同步的。在第一组和第二组中，活跃期开始后ZT12时的mRNA表达升高。相比之下，第三组中ZT20刚过就升高，表明子宫生物钟节律向后偏移了8小时。蛋白质印迹分析证实了BMAL1蛋白表达的变化。

结论

本研究首次表明限时进食调节子宫生物钟的昼夜节律，该节律在整个子宫体中是同步的。这些发现表明子宫生物钟系统是解释不吃早餐引起子宫功能障碍病因的新候选因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4003/8099714/8f9d4948b265/nzab064fig1.jpg

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限时进食调节小鼠子宫生物钟的昼夜节律。

Time-Restricted Feeding Regulates Circadian Rhythm of Murine Uterine Clock.

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