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芳烃受体缺陷型小鼠可免受高脂饮食诱导的代谢节律变化的影响。

Aryl hydrocarbon receptor-deficient mice are protected from high fat diet-induced changes in metabolic rhythms.

作者信息

Jaeger Cassie, Xu Canxin, Sun Mingwei, Krager Stacey, Tischkau Shelley A

机构信息

a Department of Pharmacology , Southern Illinois University School of Medicine , Springfield , IL , USA.

出版信息

Chronobiol Int. 2017;34(3):318-336. doi: 10.1080/07420528.2016.1256298. Epub 2017 Jan 19.

DOI:10.1080/07420528.2016.1256298
PMID:28102700
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9480348/
Abstract

High fat diet (HFD) consumption alters the synchronized circadian timing system resulting in harmful loss, gain or shift of transcriptional oscillations. The aryl hydrocarbon receptor (AhR) shares structural homology to clock genes, containing both PAS domains and basic helix-loop helix structural motifs, allowing for interaction with components of the primary circadian feedback loop. Activation of AhR alters circadian rhythmicity, primarily through inhibition of Clock/Bmal1-mediated regulation of Per1. AhR-deficient mice are protected from diet-induced metabolic dysfunction, exhibiting enhanced insulin sensitivity and glucose tolerance. This study examined whether AhR haploinsufficiency can also protect against diet-induced alterations in rhythm. After feeding AhR+/+ and AhR+/- mice an HFD (60% fat) for 15 weeks, samples were collected every 4 hours over a 24-hour period. HFD altered the rhythm of serum glucose and the metabolic transcriptome, including hepatic nuclear receptors Rev-erbα and PPARγ in wild-type c57bl6/j mice. AhR reduction provided protection against diet-induced transcriptional oscillation changes; serum glucose and metabolic gene rhythms were protected from the disruption caused by HFD feeding. These data highlight the critical role of AhR signaling in the regulation of metabolism and provide a potential therapeutic target for diseases characterized by rhythmic desynchrony.

摘要

高脂饮食(HFD)的摄入会改变同步的昼夜节律系统,导致转录振荡出现有害的减少、增加或偏移。芳烃受体(AhR)与生物钟基因具有结构同源性,包含两个PAS结构域和碱性螺旋-环-螺旋结构基序,能够与主要昼夜节律反馈环的组件相互作用。AhR的激活会改变昼夜节律,主要是通过抑制Clock/Bmal1介导的Per1调控。AhR基因缺陷型小鼠可免受饮食诱导的代谢功能障碍影响,表现出增强的胰岛素敏感性和葡萄糖耐受性。本研究检测了AhR单倍体不足是否也能预防饮食诱导的节律改变。给AhR+/+和AhR+/-小鼠喂食高脂饮食(60%脂肪)15周后,在24小时内每4小时采集一次样本。高脂饮食改变了野生型c57bl6/j小鼠的血清葡萄糖节律和代谢转录组,包括肝细胞核受体Rev-erbα和PPARγ。AhR减少可预防饮食诱导的转录振荡变化;血清葡萄糖和代谢基因节律免受高脂饮食喂养引起的破坏。这些数据突出了AhR信号在代谢调节中的关键作用,并为以节律失调为特征的疾病提供了一个潜在的治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e275/9480348/e533aedeefd2/nihms-1833740-f0008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e275/9480348/e4b060bdebf9/nihms-1833740-f0001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e275/9480348/e533aedeefd2/nihms-1833740-f0008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e275/9480348/e4b060bdebf9/nihms-1833740-f0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e275/9480348/c05830fd45be/nihms-1833740-f0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e275/9480348/71cf508f4b91/nihms-1833740-f0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e275/9480348/f1b016f3be19/nihms-1833740-f0005.jpg
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