儿童呼吸道过敏唾液中启动子的高甲基化。

promoter hypermethylation in saliva of children with a respiratory allergy.

机构信息

1VITO- Sustainable Health, Boeretang 200, 2400 Mol, Belgium.

2Centre for Environmental Sciences, Hasselt University, Diepenbeek, Belgium.

出版信息

Clin Epigenetics. 2018 Apr 11;10:50. doi: 10.1186/s13148-018-0484-1. eCollection 2018.

DOI:10.1186/s13148-018-0484-1

PMID:29682088

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5896137/

Abstract

BACKGROUND

The prevalence of respiratory allergy in children is increasing. Epigenetic DNA methylation changes are plausible underlying molecular mechanisms.

RESULTS

Saliva samples collected in substudies of two longitudinal birth cohorts in Belgium (FLEHS1 & FLEHS2) were used to discover and confirm DNA methylation signatures that can differentiate individuals with respiratory allergy from healthy subjects. Genome-wide analysis with Illumina Methylation 450K BeadChips revealed 23 differentially methylated gene regions (DMRs) in saliva from 11y old allergic children (N=26) vs. controls (N=20) in FLEHS1. A subset of 7 DMRs was selected for confirmation by iPLEX MassArray analysis. First, iPLEX analysis was performed in the same 46 FLEHS1 samples for analytical confirmation of the findings obtained during the discovery phase. iPLEX results correlated significantly with the 450K array data ( <0.0001) and confirmed 4 out of the 7 DMRs. Aiming for additional biological confirmation, the 7 DMRs were analyzed using iPLEX in a substudy of an independent birth cohort (FLEHS2; N=19 cases vs. 20 controls, aged 5 years). One DMR in the promoter region showed a consistent statistically significant hypermethylation in individuals with respiratory allergy across the two birth cohorts and technologies. In addition to its involvement in TGF-β signaling and T-helper differentiation, has a regulating role in lung development.

CONCLUSION

is considered an interesting candidate DNA methylation marker for respiratory allergy.

摘要

背景

儿童呼吸道过敏的患病率正在增加。表观遗传 DNA 甲基化变化是潜在的分子机制。

结果

在比利时两个纵向出生队列的子研究（FLEHS1 和 FLEHS2）中收集的唾液样本被用于发现和确认可以区分呼吸道过敏个体与健康受试者的 DNA 甲基化特征。使用 Illumina Methylation 450K BeadChips 进行全基因组分析，在 FLEHS1 中，11 岁的过敏儿童（N=26）与对照（N=20）的唾液中发现了 23 个差异甲基化基因区域（DMR）。选择了 7 个 DMR 子集，通过 iPLEX MassArray 分析进行确认。首先，在相同的 46 个 FLEHS1 样本中进行 iPLEX 分析，以对发现阶段获得的结果进行分析确认。iPLEX 分析结果与 450K 阵列数据显著相关（<0.0001），并确认了 7 个 DMR 中的 4 个。为了进行额外的生物学确认，在另一个独立出生队列（FLEHS2；N=19 例病例与 20 例对照，年龄 5 岁）的子研究中使用 iPLEX 分析了这 7 个 DMR。在两个出生队列和技术中，在启动子区域的一个 DMR 显示出与呼吸道过敏个体一致的统计学上显著的高甲基化。除了参与 TGF-β 信号转导和 T 辅助分化外，还在肺发育中具有调节作用。

结论

被认为是呼吸道过敏的一个有趣的候选 DNA 甲基化标志物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/624e/5896137/00fc6fa010db/13148_2018_484_Fig1_HTML.jpg

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儿童呼吸道过敏唾液中启动子的高甲基化。

promoter hypermethylation in saliva of children with a respiratory allergy.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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