昼夜节律同步以不同方式调节INS-1细胞和小鼠胰岛中细胞因子介导的转录组重塑和细胞死亡。

Circadian synchronization differentially modifies cytokine-mediated transcriptomic remodeling and cell death in INS-1 cells and mouse islets.

作者信息

Andersen Phillip Alexander Keller, Reeh Rasmus H, Sanders Isabel, Overlund Emilie Bender, Katsioudi Georgia, Jiménez-Sánchez Cecilia, Skovhøj Emil Zeng, Lubberding Anniek Frederike, Dibner Charna, Mandrup-Poulsen Thomas

机构信息

Department of Biomedical Sciences, Faculty of Health and Medical Sciences, University of Copenhagen, 2200 Copenhagen N, Denmark.

Department of Surgery, Division of Thoracic and Endocrine Surgery, University Hospitals of Geneva, 1211 Geneva, Switzerland.

出版信息

iScience. 2025 Apr 15;28(5):112431. doi: 10.1016/j.isci.2025.112431. eCollection 2025 May 16.

DOI:10.1016/j.isci.2025.112431

PMID:40352732

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12063125/

Abstract

Perturbation of the β-cell circadian clock causes oxidative stress and secretory failure, and proinflammatory cytokines disrupt the β-cell core clock. We hypothesized that cytokine-mediated clock perturbation in β-cells depends on circadian synchronization status. Cytokine-mediated core clock mRNA expression in non-synchronized insulin-producing INS-1 cells were potentiated upon synchronization, which were differentially translated into alterations in protein levels. Synchronization sensitized INS-1 cells to cytokine-mediated cytotoxicity, associated with potentiation of NF-κB activity. Inhibition of NF-κB abrogated cytokine-mediated clock gene-expression independent of synchronization status and reversed cytokine-mediated period lengthening. In contrast, in murine islets, cytokines generally reduced core clock mRNA expression independently of synchronization status or NF-κB activity. Synchronization prevented cytokine-mediated cytotoxicity, but not NF-κB activity to a degree comparable to that of KINK-1, while alterations in islet rhythmicity were unaffected by NF-κB inhibition. In conclusion, circadian synchronization differentially modifies cytokine-mediated transcriptomic remodeling and cell death in INS-1 cells and murine islets, depending on NF-κB involvement.

摘要

β细胞昼夜节律时钟的紊乱会导致氧化应激和分泌功能衰竭，且促炎细胞因子会破坏β细胞核心时钟。我们推测，β细胞中细胞因子介导的时钟紊乱取决于昼夜节律同步状态。在非同步化的胰岛素分泌型INS-1细胞中，细胞因子介导的核心时钟mRNA表达在同步化后增强，且被差异翻译为蛋白质水平的改变。同步化使INS-1细胞对细胞因子介导的细胞毒性敏感，这与NF-κB活性增强有关。抑制NF-κB可消除细胞因子介导的时钟基因表达，且与同步状态无关，并逆转细胞因子介导的周期延长。相反，在小鼠胰岛中，细胞因子通常会降低核心时钟mRNA表达，而与同步状态或NF-κB活性无关。同步化可防止细胞因子介导的细胞毒性，但在一定程度上不能防止NF-κB活性，其程度与KINK-1相当，而胰岛节律性的改变不受NF-κB抑制的影响。总之，根据NF-κB的参与情况，昼夜节律同步以不同方式调节INS-1细胞和小鼠胰岛中细胞因子介导的转录组重塑和细胞死亡。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6682/12063125/9872e21d26e1/fx1.jpg

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昼夜节律同步以不同方式调节INS-1细胞和小鼠胰岛中细胞因子介导的转录组重塑和细胞死亡。

Circadian synchronization differentially modifies cytokine-mediated transcriptomic remodeling and cell death in INS-1 cells and mouse islets.

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