H19 lncRNA 触发铁变态反应,加剧氧化-LDL 诱导的体外动脉内皮细胞损伤。

Feng Tang, Long-Hai Tian, Xiao-Han Zhu, Sen Yang, Huan Zeng, Yong-Yao Yang
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引用次数: 0

摘要

背景:在动脉粥样硬化的背景下,lncRNA H19与铁蛋白沉积之间的确切联系仍不确定:lncRNA H19与动脉粥样硬化中铁蛋白沉积之间的确切联系仍不确定:本研究旨在阐明动脉粥样硬化的基本过程,并为推进针对动脉粥样硬化的治疗干预提出新方法:方法:评估铁变态反应,包括使用 CCK-8 评估细胞活力以及细胞内 MDA、GSH 和亚铁离子的定量。同时,通过 Western 印迹分析评估蛋白质表达水平,并测定 lncRNA H19 的表达水平。此外,用 ox-LDL 培养的 HAECs 还受到 Fer-1 的干扰。将 HAECs 暴露于 ox-LDL,然后转染 H19 shRNA 和 H19 过表达载体 pcDNA3.1。然后测量细胞中的铁突变水平。然后,将 HAECs 与 ox-LDL 培养,再转染 H19 shRNA 并用 Erastin 处理,以评估铁突变水平、细胞存活率和炎症因子的产生以及血管发育能力:结果:Ox-LDL 组 HAECs 的存活率更低。结论:lncRNA H19 可增强铁嗜性,加剧低密度脂蛋白诱导的动脉内皮细胞损伤。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
H19 lncRNA triggers ferroptosis, exacerbating ox-LDL-induced artery endothelial cell damage in vitro.

Background: The precise association between lncRNA H19 and ferroptosis in the context of atherosclerosis remains uncertain.

Objective: This study is to clarify the underlying process and propose novel approaches for the advancement of therapeutic interventions targeting atherosclerosis.

Methods: Assessment of ferroptosis, which entails the evaluation of cell viability using CCK-8 and the quantification of intracellular MDA, GSH, and ferrous ions. Simultaneously, the protein expression levels of assessed by western blot analysis, while the expression level of lncRNA H19 was also determined. Furthermore, HAECs that were cultured with ox-LDL were subjected to Fer-1 interference. HAECs were exposed to ox-LDL and then transfected with H19 shRNA and H19 overexpression vector pcDNA3.1. The level of ferroptosis in the cells was then measured. Then, HAECs were subjected to incubation with ox-LDL, followed by transfection with H19 shRNA and treated with Erastin to assess the levels of ferroptosis, cell viability, and inflammatory factor production. and the ability for blood vessel development.

Results: The survival rate of HAECs in the ox-LDL group was much lower. Ox-LDL resulted in an upregulation of ACSL4 expression in HAECs, while the expression of SLC7A11 and GPX4 decreased.

Conclusions: lncRNA H19 enhances ferroptosis and exacerbates arterial endothelial cell damage induced by LDL.

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