糖尿病中组蛋白与DNA甲基化在视网膜基质金属蛋白酶-9调控中的相互作用
Crosstalk Between Histone and DNA Methylation in Regulation of Retinal Matrix Metalloproteinase-9 in Diabetes.
作者信息
Duraisamy Arul J, Mishra Manish, Kowluru Renu A
机构信息
Kresge Eye Institute, Wayne State University, Detroit, Michigan, United States.
出版信息
Invest Ophthalmol Vis Sci. 2017 Dec 1;58(14):6440-6448. doi: 10.1167/iovs.17-22706.
PURPOSE
Diabetes activates matrix metalloproteinase-9 (MMP-9), and MMP-9 via damaging retinal mitochondria, activates capillary cell apoptosis. MMP-9 promoter has binding sites for many transcription factors, and in diabetes its promoter undergoes epigenetic modifications, including histone modifications and DNA methylation. Enhancer of Zeste homolog 2 (Ezh2), which catalyzes dimethylation/trimethylation of histone 3 lysine 27 (H3K27me2 and me3), is also associated with DNA methylation. Our aim was to investigate link(s) between histone and DNA modifications in the regulation of MMP-9.
METHODS
Using human retinal endothelial cells, and also retinal microvessels from diabetic rats, effect of hyperglycemia on H3K27me3, and recruitment of Ezh2 at the MMP-9 promoter were quantified by chromatin-immunoprecipitation technique. Role of H3K27 trimethylation in regulating DNA methylation-transcription of MMP-9 was determined by regulating Ezh2 by its specific siRNA and also a pharmacologic inhibitor.
RESULTS
Hyperglycemia elevated H3K27me3 levels and the recruitment of Ezh2 at the MMP-9 promoter, and increased the enzyme activity of Ezh2. Inhibition of Ezh2 attenuated recruitment of both DNA methylating (Dnmt1) and hydroxymethylating (Tet2) enzymes and 5 hydroxymethyl cytosine at the same region of the MMP-9 promoter, and prevented increase in MMP-9 transcription and mitochondrial damage.
CONCLUSIONS
Activation of Ezh2 in diabetes, via trimethylation of H3K27, facilitates recruitment of the enzymes responsible for regulation of DNA methylation of the MMP-9 promoter, resulting in its transcriptional activation. Thus, a close crosstalk between H3K27 trimethylation and DNA methylation in diabetes plays a critical role in the maintenance of cellular epigenetic integrity of MMP-9.
目的
糖尿病会激活基质金属蛋白酶-9(MMP-9),而MMP-9通过损害视网膜线粒体激活毛细血管细胞凋亡。MMP-9启动子有许多转录因子的结合位点,在糖尿病状态下其启动子会发生表观遗传修饰,包括组蛋白修饰和DNA甲基化。增强子结合蛋白2(Ezh2)催化组蛋白3赖氨酸27的二甲基化/三甲基化(H3K27me2和me3),也与DNA甲基化有关。我们的目的是研究组蛋白和DNA修饰在MMP-9调控中的联系。
方法
使用人视网膜内皮细胞以及糖尿病大鼠的视网膜微血管,通过染色质免疫沉淀技术定量高血糖对H3K27me3的影响以及Ezh2在MMP-9启动子处的募集。通过其特异性小干扰RNA(siRNA)和一种药物抑制剂调节Ezh2,确定H3K27三甲基化在调节MMP-9的DNA甲基化-转录中的作用。
结果
高血糖升高了H3K27me3水平以及Ezh2在MMP-9启动子处的募集,并增加了Ezh2的酶活性。抑制Ezh2可减弱DNA甲基化酶(Dnmt1)和羟甲基化酶(Tet2)以及5-羟甲基胞嘧啶在MMP-9启动子同一区域的募集,并阻止MMP-9转录增加和线粒体损伤。
结论
糖尿病中Ezh2的激活通过H3K27的三甲基化促进了负责MMP-9启动子DNA甲基化调节的酶的募集,导致其转录激活。因此,糖尿病中H3K27三甲基化与DNA甲基化之间的紧密相互作用在维持MMP-9的细胞表观遗传完整性中起关键作用。
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