DNA methylation and type 2 diabetes: a systematic review.

IF 4.8 2区 医学 Q1 GENETICS & HEREDITY Clinical Epigenetics Pub Date : 2024-05-16 DOI:10.1186/s13148-024-01670-6
Nikhil Nadiger, Jyothisha Kana Veed, Priyanka Chinya Nataraj, Arpita Mukhopadhyay
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Abstract

Objective: DNA methylation influences gene expression and function in the pathophysiology of type 2 diabetes mellitus (T2DM). Mapping of T2DM-associated DNA methylation could aid early detection and/or therapeutic treatment options for diabetics.

Design: A systematic literature search for associations between T2DM and DNA methylation was performed. Prospero registration ID: CRD42020140436.

Methods: PubMed and ScienceDirect databases were searched (till October 19, 2023). Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines and New Castle Ottawa scale were used for reporting the selection and quality of the studies, respectively.

Result: Thirty-two articles were selected. Four of 130 differentially methylated genes in blood, adipose, liver or pancreatic islets (TXNIP, ABCG1, PPARGC1A, PTPRN2) were reported in > 1 study. TXNIP was hypomethylated in diabetic blood across ethnicities. Gene enrichment analysis of the differentially methylated genes highlighted relevant disease pathways (T2DM, type 1 diabetes and adipocytokine signaling). Three prospective studies reported association of methylation in IGFBP2, MSI2, FTO, TXNIP, SREBF1, PHOSPHO1, SOCS3 and ABCG1 in blood at baseline with incident T2DM/hyperglycemia. Sex-specific differential methylation was reported only for HOOK2 in visceral adipose tissue (female diabetics: hypermethylated, male diabetics: hypomethylated). Gene expression was inversely associated with methylation status in 8 studies, in genes including ABCG1 (blood), S100A4 (adipose tissue), PER2 (pancreatic islets), PDGFA (liver) and PPARGC1A (skeletal muscle).

Conclusion: This review summarizes available evidence for using DNA methylation patterns to unravel T2DM pathophysiology. Further validation studies in diverse populations will set the stage for utilizing this knowledge for identifying early diagnostic markers and novel druggable pathways.

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DNA 甲基化与 2 型糖尿病:系统综述。
目的:DNA 甲基化影响 2 型糖尿病(T2DM)病理生理学中的基因表达和功能:DNA甲基化影响着2型糖尿病(T2DM)病理生理学中的基因表达和功能。绘制与 T2DM 相关的 DNA 甲基化图谱有助于糖尿病患者的早期检测和/或治疗方案的选择:设计:对 T2DM 与 DNA 甲基化之间的关系进行了系统的文献检索。Prospero 注册 ID:CRD42020140436.Methods:检索了 PubMed 和 ScienceDirect 数据库(截至 2023 年 10 月 19 日)。在报告研究的选择和质量时,分别采用了系统综述和元分析首选报告项目(PRISMA)指南和新卡塞尔渥太华量表:结果:32 篇文章入选。在血液、脂肪、肝脏或胰岛的 130 个差异甲基化基因中,有 4 个基因(TXNIP、ABCG1、PPARGC1A、PTPRN2)在超过 1 项研究中被报道。不同种族的糖尿病患者血液中 TXNIP 存在低甲基化。对不同甲基化基因的基因富集分析强调了相关的疾病通路(T2DM、1 型糖尿病和脂肪细胞因子信号转导)。三项前瞻性研究报告了基线血液中 IGFBP2、MSI2、FTO、TXNIP、SREBF1、PHOSPHO1、SOCS3 和 ABCG1 的甲基化与 T2DM/高血糖事件的关联。只有内脏脂肪组织中的 HOOK2 存在性别特异性甲基化差异(女性糖尿病患者:高甲基化,男性糖尿病患者:低甲基化)。在 8 项研究中,基因表达与甲基化状态成反比,涉及的基因包括 ABCG1(血液)、S100A4(脂肪组织)、PER2(胰岛)、PDGFA(肝脏)和 PPARGC1A(骨骼肌):本综述总结了利用 DNA 甲基化模式揭示 T2DM 病理生理学的现有证据。在不同人群中开展的进一步验证研究将为利用这些知识确定早期诊断标志物和新型药物途径奠定基础。
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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来源期刊
自引率
5.30%
发文量
150
期刊介绍: Clinical Epigenetics, the official journal of the Clinical Epigenetics Society, is an open access, peer-reviewed journal that encompasses all aspects of epigenetic principles and mechanisms in relation to human disease, diagnosis and therapy. Clinical trials and research in disease model organisms are particularly welcome.
期刊最新文献
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