HMOX1 upregulation promotes ferroptosis in diabetic atherosclerosis

HMOX1型 下调和上调 糖尿病 基因敲除 脂质过氧化 疾病 医学 氧化应激 癌症研究 内分泌学 内科学 细胞凋亡 生物 血红素加氧酶 基因 生物化学 血红素
作者
Zhijun Meng,Hongping Liang,Jianli Zhao,Jia Gao,Caihong Liu,Xinliang Ma,Jing Liu,Bin Liang,Xiangying Jiao,Ji-Min Cao,Yajing Wang
出处
期刊:Life Sciences [Elsevier BV]
卷期号:284: 119935-119935 被引量:208
标识
DOI:10.1016/j.lfs.2021.119935
摘要

Atherosclerotic vascular disease remains the principal cause of death and disability among patients with type 2 diabetes. Unfortunately, the problem is not adequately resolved by therapeutic strategies with currently available drugs or approaches that solely focus on optimal glycemic control. To identify the key contributors and better understand the mechanism of diabetic atherosclerotic vascular disease, we aimed to elucidate the key genetic characteristics and pathological pathways in atherosclerotic vascular disease through nonbiased bioinformatics analysis and subsequent experimental demonstration and exploration in diabetic atherosclerotic vascular disease. Sixty-eight upregulated and 23 downregulated genes were identified from the analysis of gene expression profiles (GSE30169 and GSE6584). A comprehensive bioinformatic assay further identified that ferroptosis, a new type of programmed cell death and HMOX1 (a gene that encodes heme oxygenase), were vital factors in atherosclerotic vascular disease. We further demonstrated that diabetes significantly increased ferroptosis and HMOX1 levels compared to normal controls. Importantly, the ferroptosis inhibitor ferrostatin-1 (Fer-1) effectively attenuated diabetic atherosclerosis, suggesting the causative role of ferroptosis in diabetic atherosclerosis development. At the cellular level, Fer-1 ameliorated high glucose high lipid-induced lipid peroxidation and downregulated ROS production. More importantly, HMOX1 knockdown attenuated Fe2+ overload, reduced iron content and ROS, and alleviated lipid peroxidation, which led to a reduction in ferroptosis in diabetic human endothelial cells. We demonstrated that HMOX1 upregulation is responsible for the increased ferroptosis in diabetic atherosclerosis development, suggesting that HMOX1 may serve as a potential therapeutic or drug development target for diabetic atherosclerosis.
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