双子の研究で肥満のエピジェネティックなサインが発見される(Epigenetic signature for obesity found in study of twins)

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2023-11-01 ワシントン州立大学(WSU)

双子の研究で肥満のエピジェネティックなサインが発見される(Epigenetic signature for obesity found in study of twins)Photo by Puhimec on iStock.

◆ワシントン州立大学の研究によれば、肥満の傾向は人間の細胞の分子プロセスに書き込まれている可能性があり、双子を対象に行われた研究で、肥満の双子に特有のエピジェネティックな署名が頬の細胞に見つかりました。これにより、肥満のバイオマーカーの簡単な頬ひづめ擦りテストが可能になり、肥満の早期予防方法が開発される可能性があります。
◆この研究は、肥満が単なる食事摂取以上に複雑で、肥満感受性と分子マーカーが存在することを示唆しています。ただし、より多くの人々を対象に研究が必要です。この研究の目標は、肥満のバイオマーカーテストを開発し、肥満の予防方法を提供することです。

<関連情報>

ヒト双生児における肥満感受性の全身的影響に関するエピゲノムワイド関連研究 Epigenome-wide association study of systemic effects of obesity susceptibility in human twins

Glen E. Duncana ,Ally Avery,Millissia Ben Maamar,Eric E. Nilsson,Daniel Beck & Michael K. Skinner
Epigenetics  Published online: 23 Oct 2023
DOI:https://doi.org/10.1080/15592294.2023.2268834

ABSTRACT

The current study was designed to use an epigenome-wide association approach (EWAS) to identify potential systemic DNA methylation alterations that are associated with obesity using 22 discordant twin pairs. Buccal cells (from a cheek swab) were used as a non-obesity relevant purified marker cell for the epigenetic analysis. Analysis of differential DNA methylation regions (DMRs) was used to identify epigenetic associations with metabolic and dietary measures related to obesity with discordant twins. An edgeR analysis provided a DMR signature with p < 1e-04, but statistical significance was reduced due to low sample size and known multiple origins of obesity. A weighted gene coexpression network analysis (WGCNA) was performed and identified modules (p < 0.005) of epigenetic sites that correlated with different metabolic and dietary measures. The DMR and WGCNA epigenetic sites were near genes (e.g., CIDEC, SPP1, ZFPG9, and POMC) with previously identified obesity associated pathways (e.g., metabolism, cholesterol, and fat digestion). Observations demonstrate the feasibility of identifying systemic epigenetic biomarkers for obesity, which can be further investigated for clinical relevance in future research with larger sample sizes. The availability of a systemic epigenetic biomarker for obesity susceptibility may facilitate preventative medicine and clinical management of the disease early in life.

KEY HIGHLIGHTS

  • Analysis of differential DNA methylation regions (DMRs) was used to identify epigenetic associations with metabolic and dietary measures related to obesity with discordant twins.
  • A weighted genome coexpression network analysis (WGCNA) was performed and identified modules of epigenetic sites that correlated with different metabolic and dietary measures.
  • Observations demonstrate the feasibility of identifying systemic epigenetic biomarkers for obesity, which can be further investigated for clinical relevance in future research with larger sample sizes.
  • The availability of a systemic epigenetic biomarker for obesity susceptibility may facilitate preventative medicine and clinical management of the disease early in life.
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