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单核苷酸多态性(SNP)变异与DNA甲基化的相互作用分析鉴定出先天性心脏病中新的甲基化致病基因。

The Interaction Analysis of SNP Variants and DNA Methylation Identifies Novel Methylated Pathogenesis Genes in Congenital Heart Diseases.

作者信息

Wang Jing, Ma Xiaoqin, Zhang Qi, Chen Yinghui, Wu Dan, Zhao Pengjun, Yu Yu

机构信息

Department of Pediatric, Yangpu District Shidong Hospital, Shanghai, China.

Institute for Developmental and Regenerative Cardiovascular Medicine, Xinhua Hospital, School of Medicine, Shanghai Jiao Tong University, Shanghai, China.

出版信息

Front Cell Dev Biol. 2021 May 4;9:665514. doi: 10.3389/fcell.2021.665514. eCollection 2021.

DOI:10.3389/fcell.2021.665514
PMID:34041244
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8143053/
Abstract

Congenital heart defect (CHD) is a rare and complicated disease with a high mortality rate. Its etiology remains unclear and includes many aspects. DNA methylation has been indicated to be involved in heart development in the early stage of life, and aberrant methylation level was related to CHDs. This study provides the first evidence of the cross talk of SNP variants and DNA methylation in clarifying CHD underlying genomic cause. We gathered whole exome sequencing (WES) data for Group 1 consisting of patients with PA ( = 78), TOF ( = 20), TAPVC ( = 78), and PDA ( = 40), and 100 healthy children as control group. Rare non-synonymous mutations and novel genes were found and highlighted. Meanwhile, we carried out the second analysis of DNA methylation data from patients with PA ( = 3), TAPVC ( = 3), TOF ( = 3), and PDA ( = 2), and five healthy controls using 850 K array in Group 2. DNA methylation was linked to WES data, and we explored an obvious overlap of hyper/hypomethylated genes. Next, we identified some candidate genes by Fisher's exact test and Burden analysis; then, those methylated genes were figured out by the criteria of the mutation located in the CpG islands of the genome, differential methylation sites (DMS), and DNA methylation quantitative trait loci (meQTLs) in the database, respectively. Also, the interaction of differentially methylated candidate genes with known CHD pathogenetic genes was depicted in a molecular network. Taken together, our findings show that nine novel genes (ANGPTL4, VEGFA, PAX3, MUC4, HLA-DRB1, TJP2, BCR, PKD1, and HK2) in methylation level are critical to CHD and reveal a new insight into the molecular pathogenesis of CHD.

摘要

先天性心脏病(CHD)是一种罕见且复杂的疾病,死亡率很高。其病因尚不清楚,涉及多个方面。已有研究表明,DNA甲基化参与生命早期的心脏发育,甲基化水平异常与先天性心脏病有关。本研究首次提供了单核苷酸多态性(SNP)变异与DNA甲基化相互作用的证据,以阐明先天性心脏病潜在的基因组病因。我们收集了第一组的全外显子组测序(WES)数据,该组包括肺动脉闭锁(PA,n = 78)、法洛四联症(TOF,n = 20)、完全性肺静脉异位连接(TAPVC,n = 78)和动脉导管未闭(PDA,n = 40)患者,以及100名健康儿童作为对照组。发现并突出显示了罕见的非同义突变和新基因。同时,我们对第二组中3例PA、3例TAPVC、3例TOF、2例PDA患者及5名健康对照者使用850K芯片进行了DNA甲基化数据的二次分析。将DNA甲基化与WES数据相关联,我们探索了高甲基化/低甲基化基因的明显重叠。接下来,我们通过Fisher精确检验和负担分析确定了一些候选基因;然后,分别根据位于基因组CpG岛中的突变、差异甲基化位点(DMS)和数据库中的DNA甲基化数量性状位点(meQTL)标准确定那些甲基化基因。此外,在分子网络中描绘了差异甲基化候选基因与已知先天性心脏病致病基因的相互作用。综上所述,我们的研究结果表明,甲基化水平上的9个新基因(血管生成素样蛋白4、血管内皮生长因子A、配对盒基因3、黏蛋白4、人类白细胞抗原DRB1、紧密连接蛋白2、断裂簇区域蛋白、多囊蛋白1和己糖激酶2)对先天性心脏病至关重要,并揭示了先天性心脏病分子发病机制的新见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fb8b/8143053/c01274ec9263/fcell-09-665514-g008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fb8b/8143053/a2da7333ab60/fcell-09-665514-g007.jpg
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