当静脉内皮暴露于振荡剪切应力时,静脉壁细胞层的全表观基因组变化。

IF 2.5 Q3 GENETICS & HEREDITY Epigenomes Pub Date : 2023-03-20 DOI:10.3390/epigenomes7010008
Mariya A Smetanina, Valeria A Korolenya, Alexander E Kel, Ksenia S Sevostyanova, Konstantin A Gavrilov, Andrey I Shevela, Maxim L Filipenko
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引用次数: 0

摘要

在静脉曲张转化过程中,振荡剪应力对内皮施加的静脉细胞的表观基因组变化可能导致静脉壁重塑过程中基因表达改变的巩固。我们的目的是揭示这种表观基因组范围内的甲基化变化。从3例患者术后留下的非曲张静脉段中提取细胞,经磁免疫分选,在选择性培养基中培养,获得原代培养细胞。内皮细胞被暴露在振荡剪切应力下或处于静止状态。然后,用邻近层细胞的预处理培养基处理其他细胞类型。从收获的细胞中分离的DNA使用Illumina微阵列进行全表观基因组研究,然后使用GenomeStudio (Illumina)、Excel (Microsoft)和Genome Enhancer (geneXplain)软件包进行数据分析。不同细胞层的DNA甲基化程度不同(低/高)。控制某些转录因子活性的最可靶向的主调节剂似乎是以下几种:(1)内皮细胞的HGS、PDGFB和AR;(2)平滑肌细胞的HGS、CDH2、SPRY2、SMAD2、ZFYVE9、P2RY1;(3)成纤维细胞的WWOX、F8、IGF2R、NFKB1、RELA、SOCS1和FXN。一些已确定的主调控因子可能成为未来治疗静脉曲张的有希望的药物靶点。
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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Epigenome-Wide Changes in the Cell Layers of the Vein Wall When Exposing the Venous Endothelium to Oscillatory Shear Stress.

Epigenomic changes in the venous cells exerted by oscillatory shear stress towards the endothelium may result in consolidation of gene expression alterations upon vein wall remodeling during varicose transformation. We aimed to reveal such epigenome-wide methylation changes. Primary culture cells were obtained from non-varicose vein segments left after surgery of 3 patients by growing the cells in selective media after magnetic immunosorting. Endothelial cells were either exposed to oscillatory shear stress or left at the static condition. Then, other cell types were treated with preconditioned media from the adjacent layer's cells. DNA isolated from the harvested cells was subjected to epigenome-wide study using Illumina microarrays followed by data analysis with GenomeStudio (Illumina), Excel (Microsoft), and Genome Enhancer (geneXplain) software packages. Differential (hypo-/hyper-) methylation was revealed for each cell layer's DNA. The most targetable master regulators controlling the activity of certain transcription factors regulating the genes near the differentially methylated sites appeared to be the following: (1) HGS, PDGFB, and AR for endothelial cells; (2) HGS, CDH2, SPRY2, SMAD2, ZFYVE9, and P2RY1 for smooth muscle cells; and (3) WWOX, F8, IGF2R, NFKB1, RELA, SOCS1, and FXN for fibroblasts. Some of the identified master regulators may serve as promising druggable targets for treating varicose veins in the future.

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来源期刊
Epigenomes
Epigenomes GENETICS & HEREDITY-
CiteScore
3.80
自引率
0.00%
发文量
38
审稿时长
11 weeks
期刊最新文献
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