环境光照/黑暗的移位导致的昼夜节律失调会引起结肠的昼夜节律紊乱。

Circadian misalignment by environmental light/dark shifting causes circadian disruption in colon.

机构信息

Rush Medical College, Rush Center for Integrated Microbiome and Chronobiology Research, Rush University Medical Center, Chicago, Illinois, United States of America.

Department of Surgery, Rush University Medical Center, Chicago, Illinois, United States of America.

出版信息

PLoS One. 2021 Jun 4;16(6):e0251604. doi: 10.1371/journal.pone.0251604. eCollection 2021.

DOI:10.1371/journal.pone.0251604

PMID:34086699

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8177509/

Abstract

BACKGROUND

Physiological circadian rhythms (CRs) are complex processes with 24-hour oscillations that regulate diverse biological functions. Chronic weekly light/dark (LD) shifting (CR disruption; CRD) in mice results in colonic hyperpermeability. However, the mechanisms behind this phenomenon are incompletely understood. One potential innovative in vitro method to study colonic CRs are colon organoids. The goals of this study were to utilize circadian clock gene Per2 luciferase reporter (Per2::Luc) mice to measure the effects of chronic LD shifting on colonic tissue circadian rhythmicity ex vivo and to determine if organoids made from shifted mice colons recapitulate the in vivo phenotype.

METHODS

Non-shifted (NS) and shifted (S) BL6 Per2::Luc mice were compared after a 22-week experiment. NS mice had a standard 12h light/12h dark LD cycle throughout. S mice alternated 12h LD patterns weekly, with light from 6am-6pm one week followed by shifting light to 6pm-6am the next week for 22 weeks. Mice were tested for intestinal permeability while colon tissue and organoids were examined for CRs of bioluminescence and proteins of barrier function and cell fate.

RESULTS

There was no absolute difference in NS vs. S 24h circadian period or phase. However, chronic LD shifting caused Per2::Luc S mice colon tissue to exhibit significantly greater variability in both the period and phase of Per2::Luc rhythms than NS mice colon tissue and organoids. Chronic LD shifting also resulted in increased colonic permeability of the Per2::Luc mice as well as decreased protein markers of intestinal permeability in colonic tissue and organoids from shifted Per2:Luc mice.

CONCLUSIONS

Our studies support a model in which chronic central circadian disruption by LD shifting alters the circadian phenotype of the colon tissue and results in colon leakiness and loss of colonic barrier function. These CRD-related changes are stably expressed in colon stem cell derived organoids from CRD mice.

摘要

背景

生理昼夜节律（CR）是具有 24 小时振荡的复杂过程，调节着多种生物功能。慢性每周光/暗（LD）移位（CR 破坏；CRD）在小鼠中导致结肠通透性增加。然而，这种现象背后的机制尚不完全清楚。一种潜在的创新的体外方法来研究结肠 CR 是结肠类器官。本研究的目的是利用昼夜节律基因 Per2 荧光素酶报告基因（Per2::Luc）小鼠测量慢性 LD 移位对结肠组织 CR 节律性的影响，并确定来自移位小鼠结肠的类器官是否再现体内表型。

方法

在 22 周的实验后，比较了非移位（NS）和移位（S）BL6 Per2::Luc 小鼠。NS 小鼠在整个实验过程中都有标准的 12 小时光照/12 小时黑暗 LD 循环。S 小鼠每周交替进行 12 小时 LD 模式，一周光照时间为早上 6 点至晚上 6 点，下一周光照时间改为晚上 6 点至早上 6 点，共 22 周。在检查肠道通透性的同时，还检查了结肠组织和类器官的生物发光和屏障功能及细胞命运的蛋白质的 CR。

结果

NS 与 S 24 小时昼夜周期或相位无绝对差异。然而，慢性 LD 移位导致 Per2::Luc S 小鼠结肠组织的 Per2::Luc 节律的周期和相位的变异性明显大于 NS 小鼠结肠组织和类器官。慢性 LD 移位还导致 Per2::Luc 小鼠的结肠通透性增加，以及移位 Per2:Luc 小鼠结肠组织和类器官中肠道通透性的蛋白质标志物减少。

结论

我们的研究支持这样一种模型，即 LD 移位引起的中枢昼夜节律破坏改变了结肠组织的昼夜节律表型，并导致结肠渗漏和结肠屏障功能丧失。这些与 CRD 相关的变化在来自 CRD 小鼠的结肠干细胞衍生类器官中稳定表达。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bd65/8177509/2700a4cad68e/pone.0251604.g001.jpg

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环境光照/黑暗的移位导致的昼夜节律失调会引起结肠的昼夜节律紊乱。

Circadian misalignment by environmental light/dark shifting causes circadian disruption in colon.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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