Mediating effects of BMI on the association between DNA methylation regions and 24-h blood pressure in African Americans.

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-10-01 Epub Date: 2024-06-19 DOI:10.1097/HJH.0000000000003796

Xiaoqing Pan, Yuru Chen, Yifan Yang, Srividya Kidambi, Mingyu Liang, Pengyuan Liu

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Abstract

Background: DNA methylation is an important epigenetic mechanism that may influence blood pressure (BP) regulation and hypertension risk. Obesity, a major lifestyle factor associated with hypertension, may interact with DNA methylation to affect BP. However, the indirect effect of DNA methylation on 24-h BP measurements mediated by obesity-related phenotypes such as BMI has not been investigated.

Methods: Causal mediation analysis was applied to examine the mediating role of BMI in the relation between DNA methylation and 24-h BP phenotypes, including SBP, DBP and mean arterial blood pressure (MAP), in 281 African American participants.

Results: Analysis of 38 215 DNA methylation regions, derived from 1 549 368 CpG sites across the genome, identified up to 138 methylation regions that were significantly associated with 24-h BP measurements through BMI mediation. Among them, 38 (19.2%) methylation regions were concurrently associated with SBP, DBP and MAP. Genes associated with BMI-mediated methylation regions are potentially involved in various chronic diseases such as coronary artery disease and renal disease, which are often caused or exacerbated by hypertension. Notably, three genes ( CDH4 , NOTCH1 and COLGALT1 ) showed both direct associations with 24-h BP measurements and indirect associations through BMI after adjusting for age and sex covariates.

Conclusion: Our findings suggest that DNA methylation may contribute to the regulation of 24-h BP in African Americans both directly and indirectly through BMI mediation.

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体重指数对非裔美国人 DNA 甲基化区域与 24 小时血压之间关系的中介效应。

背景：DNA 甲基化是一种重要的表观遗传机制，可能会影响血压（BP）调节和高血压风险。肥胖是与高血压相关的一个主要生活方式因素，可能与 DNA 甲基化相互作用影响血压。然而，DNA 甲基化对 24 小时血压测量的间接影响是由肥胖相关表型（如体重指数）介导的，这一点尚未得到研究：方法：对 281 名非裔美国人进行了因果中介分析，研究 BMI 在 DNA 甲基化与 24 小时血压表型（包括 SBP、DBP 和平均动脉血压 (MAP)）之间的中介作用：结果：对来自全基因组 1,549,368 个 CpG 位点的 38 215 个 DNA 甲基化区域进行了分析，发现多达 138 个甲基化区域通过 BMI 中介作用与 24 小时血压测量值显著相关。其中，38 个（19.2%）甲基化区域同时与 SBP、DBP 和 MAP 相关。与 BMI 介导的甲基化区域相关的基因可能与各种慢性疾病有关，如冠心病和肾病，这些疾病通常由高血压引起或加剧。值得注意的是，三个基因（CDH4、NOTCH1 和 COLGALT1）既与 24 小时血压测量值直接相关，又在调整年龄和性别协变量后通过 BMI 间接相关：我们的研究结果表明，DNA 甲基化可能直接或通过体重指数间接调节非裔美国人的 24 小时血压。

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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