HRD1 reduction promotes cholesterol-induced vascular smooth muscle cell phenotypic change via endoplasmic reticulum stress.

IF 3.5 2区生物学 Q3 CELL BIOLOGY

Molecular and Cellular Biochemistry Pub Date : 2024-11-01 Epub Date: 2023-12-25 DOI:10.1007/s11010-023-04902-0

Linli Wang, Zhitao Ren, Lin Wu, Ximei Zhang, Min Wang, Haiming Niu, Xuemin He, Heting Wang, Yanming Chen, Guojun Shi, Xiaoxian Qian

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引用次数: 0

Abstract

Phenotypic change of vascular smooth muscle cells (VSMCs) is the main contributor of vascular pathological remodeling in atherosclerosis. The endoplasmic reticulum (ER) is critical for maintaining VSMC function through elimination of misfolded proteins that impair VSMC cellular function. ER-associated degradation (ERAD) is an ER-mediated process that controls protein quality by clearing misfolded proteins. One of the critical regulators of ERAD is HRD1, which also plays a vital role in lipid metabolism. However, the function of HRD1 in VSMCs of atherosclerotic vessels remains poorly understood. The level of HRD1 expression was analyzed in aortic tissues of mice fed with a high-fat diet (HFD). The H&E and EVG (VERHOEFF'S VAN GIESON) staining were used to demonstrate pathological vascular changes. IF (immunofluorescence) and WB (western blot) were used to explore the signaling pathways in vivo and in vitro. The wound closure and transwell assays were also used to test the migration rate of VSMCs. CRISPR gene editing and transcriptomic analysis were applied in vitro to explore the cellular mechanism. Our data showed significant reduction of HRD1 in aortic tissues of mice under HFD feeding. VSMC phenotypic change and HRD1 downregulation were detected by cholesterol supplement. Transcriptomic and further analysis of HRD1-KO VSMCs showed that HRD1 deficiency induced the expression of genes related to ER stress response, proliferation and migration, but reduced the contractile-related genes in VSMCs. HRD1 deficiency also exacerbated the proliferation, migration and ROS production of VSMCs induced by cholesterol, which promoted the VSMC dedifferentiation. Our results showed that HRD1 played an essential role in the contractile homeostasis of VSMCs by negatively regulating ER stress response. Thus, HRD1 in VSMCs could serve as a potential therapeutic target in metabolic disorder-induced vascular remodeling.

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HRD1 减少会通过内质网应激促进胆固醇诱导的血管平滑肌细胞表型变化。

血管平滑肌细胞（VSMC）的表型变化是动脉粥样硬化血管病理重塑的主要原因。内质网（ER）通过消除损害血管平滑肌细胞功能的错误折叠蛋白来维持血管平滑肌细胞的功能。内质网相关降解（ERAD）是一个由内质网介导的过程，它通过清除折叠错误的蛋白质来控制蛋白质的质量。ERAD的关键调控因子之一是HRD1，它在脂质代谢中也发挥着重要作用。然而，人们对 HRD1 在动脉粥样硬化血管的 VSMC 中的功能仍知之甚少。研究人员分析了高脂饮食（HFD）小鼠主动脉组织中 HRD1 的表达水平。H&E 和 EVG（VERHOEFF'S VAN GIESON）染色用于显示病理血管变化。IF（免疫荧光）和 WB（western blot）用于探索体内和体外的信号通路。此外，还采用了伤口闭合和跨孔试验来检测 VSMC 的迁移率。体外应用 CRISPR 基因编辑和转录组分析来探索细胞机制。我们的数据显示，HFD喂养下小鼠主动脉组织中的HRD1明显减少。补充胆固醇可检测到VSMC表型的改变和HRD1的下调。对 HRD1-KO VSMC 的转录组和进一步分析表明，HRD1 缺乏会诱导与 ER 应激反应、增殖和迁移相关的基因表达，但会减少 VSMC 的收缩相关基因。HRD1 缺失还加剧了胆固醇诱导的 VSMC 的增殖、迁移和 ROS 生成，从而促进了 VSMC 的去分化。我们的研究结果表明，HRD1通过负向调节ER应激反应，在VSMC的收缩平衡中发挥着重要作用。因此，VSMCs 中的 HRD1 可作为代谢紊乱诱导的血管重塑的潜在治疗靶点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular and Cellular Biochemistry 生物-细胞生物学

CiteScore

8.30

自引率

2.30%

发文量

293

审稿时长

1.7 months

期刊介绍： Molecular and Cellular Biochemistry: An International Journal for Chemical Biology in Health and Disease publishes original research papers and short communications in all areas of the biochemical sciences, emphasizing novel findings relevant to the biochemical basis of cellular function and disease processes, as well as the mechanics of action of hormones and chemical agents. Coverage includes membrane transport, receptor mechanism, immune response, secretory processes, and cytoskeletal function, as well as biochemical structure-function relationships in the cell. In addition to the reports of original research, the journal publishes state of the art reviews. Specific subjects covered by Molecular and Cellular Biochemistry include cellular metabolism, cellular pathophysiology, enzymology, ion transport, lipid biochemistry, membrane biochemistry, molecular biology, nuclear structure and function, and protein chemistry.