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Glucose Induces DNMT1/IMPDH2‐Dependent Metabolic Memory in Endothelial Cells Upon Reprograming Nucleotide Metabolism

DNA甲基化 表观遗传学 生物 表观遗传学 脐静脉 DNA甲基转移酶 血管生成 DNMT1型 甲基化 糖尿病性视网膜病变 内皮干细胞 碳水化合物代谢 萝卜硫苷 细胞生物学 基因亚型 内分泌学 脂肪组织 癌症研究 转录组 人脐静脉内皮细胞 重编程 化学 生物化学 下调和上调 同工酶 内科学 新陈代谢 周细胞 分子生物学 甲基转移酶 糖尿病
作者
Sampara Vasishta,Ganesha Poojary,Sarmeela Sharma,Sarah Michael Gomes,Sharath Mohan Bhat,Sandeep Mallya,Prashanth Adiga,Shashikiran Umakanth,Saumya Jakati,Brijesh Takkar,Inderjeet Kaur,Manjunath joshi
出处
期刊:The FASEB Journal [Wiley]
卷期号:40 (1): e71374-e71374 被引量:1
标识
DOI:10.1096/fj.202502260rr
摘要

Type 2 diabetic (T2D) individuals are predisposed to enduring vascular complications despite therapeutic/lifestyle intervention due to 'metabolic memory', an epigenetic reprogramming in various cell/tissue types. The present study examined the potential role of DNMT isoforms in regulating glucose-induced metabolic memory and associated changes in endothelial metabolism leading to diabetic complications. The study involved micro/macro vascular endothelial cells (ECs), high-fat diet (HFD)-induced diabetic mouse models, and subjects with diabetic retinopathy (DR) at varying enforced levels of glycemia. Immunoblotting and HPLC-based analysis were performed to examine the expression of DNMT isoforms and global DNA methylation levels. Reactive oxygen species (ROS) and inflammatory mediators were analyzed by Spectramax and multiplex ELISA respectively. Cell cycle analysis and angiogenesis assays were performed by flowcytometry and 3D spheroid assays. Integrated omics analysis using LC-MS and RRBS was performed to identify metabolic and epigenomic signatures of metabolic memory. Candidate genes were validated in clinically characterized individuals with DR by RT-PCR. High glucose and AGEs persistently elevated expression of the DNMT1 but not DNMT3A and DNMT3B despite glucose normalization. Global DNA methylation, DNA synthesis, angiogenesis, oxidative stress, inflammatory mediators, and nucleotide metabolism intermediates were elevated and sustained despite glucose normalization. Metabolic memory was associated with differential methylation of genes associated with vascular functions and nucleotide metabolism. We observed persistent DNA methylation of IMPDH2, the rate-limiting enzyme of purine metabolism. DNMT1 and IMPDH2 were elevated in retinal and umbilical vein endothelial cells in vitro, as well as retinal and aortic tissues of the HFD mice despite dietary intervention, which were reduced upon treatment with 5-aza-2'-deoxycytidine. IMPDH2 transcripts were elevated in subjects with DR undergoing antidiabetic therapy and in the exosomes derived from the vitreous of subjects with proliferative DR. Mycophenolate mofetil, a pharmacological inhibitor of IMPDH2, decreased sustained levels of DNMT1 and impeded sprout formation in 3D endothelial cultures induced by transient hyperglycemic conditions. Our study provides novel insights into the biology of metabolic memory by identifying IMPDH2 regulated by DNMT1 during epigenetic and metabolic reprogramming, with clinical relevance to the pathogenesis of DR.
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