ApoE基因敲除小鼠动脉粥样硬化激活ufmyation。

IF 2.6 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

DNA and cell biology Pub Date : 2022-10-01 Epub Date: 2022-09-07 DOI:10.1089/dna.2022.0253

Yi Sun, Wendi Li, Zhenju Cao, Jiajia Hu, Mei Jia, Ming Su

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引用次数: 1

摘要

ufmyation是一种新的泛素样系统，处理复杂和精细的细胞活动，并与内质网应激密切相关。我们之前的研究表明，ufmyation在血管重构模型中被激活。然而，ufmyation在动脉粥样硬化(AS)中的作用尚不清楚。在这项研究中，我们研究了ApoE基因敲除(ApoE- ko)小鼠中ufmyation的变化。我们发现，在喂食高脂肪饮食46周的ApoE-KO小鼠中，ufmyation被显著激活。我们一致地观察到，氧化低密度脂蛋白(oxLDL)处理的血管平滑肌细胞(VSMCs)以时间依赖性的方式显示ufmyation激活。利用转基因(Tg)技术生成过表达ufm1的小鼠，与ApoE-KO小鼠杂交，生成ApoE-KO/UFM1-Tg小鼠。我们发现，与对照组相比，AS的程度没有变化。同样，过表达活性UFM1也不能改变oxldl诱导的VSMCs的增殖。这些发现表明，UFM1在AS中被激活，但过表达UFM1不会改变ApoE-KO小鼠AS的发展。

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UFMylation Is Activated in Atherosclerosis of ApoE Knockout Mice.

UFMylation is a novel ubiquitin-like system that deals with complex and fine-tuned cellular activities and is closely related to endoplasmic reticulum stress. Our previous study indicated that UFMylation is activated in vascular remodeling models. However, the role of UFMylation in atherosclerosis (AS) is unclear. In this study, we investigated changes in UFMylation in ApoE knockout (ApoE-KO) mice. We found that UFMylation was significantly activated in ApoE-KO mice fed a high-fat diet for 46 weeks. Consistently we observed that vascular smooth muscle cells (VSMCs) treated with oxidized low-density lipoprotein (oxLDL) showed UFMylation activation in a time-dependent manner. UFM1-overexpressing mice were generated using transgenic (Tg) technique and bred with ApoE-KO mice to generate ApoE-KO/UFM1-Tg mice. We found that the degree of AS did not vary compared with that of the control. Similarly, overexpression of active UFM1 failed to alter oxLDL-induced proliferation of VSMCs. These findings indicate that UFMylation is activated in AS, but overexpression of UFM1 does not alter the development of AS in ApoE-KO mice.

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来源期刊

DNA and cell biology 生物-生化与分子生物学

CiteScore

6.60

自引率

0.00%

发文量

审稿时长

1.5 months

期刊介绍： DNA and Cell Biology delivers authoritative, peer-reviewed research on all aspects of molecular and cellular biology, with a unique focus on combining mechanistic and clinical studies to drive the field forward. DNA and Cell Biology coverage includes: Gene Structure, Function, and Regulation Gene regulation Molecular mechanisms of cell activation Mechanisms of transcriptional, translational, or epigenetic control of gene expression Molecular Medicine Molecular pathogenesis Genetic approaches to cancer and autoimmune diseases Translational studies in cell and molecular biology Cellular Organelles Autophagy Apoptosis P bodies Peroxisosomes Protein Biosynthesis and Degradation Regulation of protein synthesis Post-translational modifications Control of degradation Cell-Autonomous Inflammation and Host Cell Response to Infection Responses to cytokines and other physiological mediators Evasive pathways of pathogens.