Nuclear Regulatory Disturbances Precede and Predict the Development of Type-2 Diabetes in Asian Populations

Overview

Journal medRxiv

Date 2025 Feb 24

PMID 39990582

Authors

Pritesh R Jain

Hong Kiat Ng

Darwin Tay

Theresia Mina

Dorrain Low

Nilanjana Sadhu

Ishminder K Kooner

Ananya Gupta

Tai Fei Li

Nicolas Bertin

Calvin Woon Loong Chin

Chai Jin Fang

Liuh Ling Goh

Shi Qi Mok

Su Qin Peh

Charumathi Sabanayagam

Vinitaa Jha

Anuradhani Kasturiratne

Prasad Katulanda

Khadija I Khawaja

Weng Khong Lim

Khai Pang Leong

Ching-Yu Cheng

Jian-Min Yuan

Paul Elliott

Elio Riboli

Lee Eng Sing

Jimmy Lee

Joanne Ngeow

Jian Jin Liu

James Best

Jaspal S Kooner

E-Shyong Tai

Patrick Tan

Rob M van Dam

Woon-Puay Koh

Sim Xueling

Marie Loh

John C Chambers

Affiliations

Soon will be listed here.

Abstract

To identify biomarkers and pathways to Type-2 diabetes (T2D), a major global disease, we completed array-based epigenome-wide association in whole blood in 5,709 Asian people. We found 323 Sentinel CpGs (from 314 genetic loci) that predict future T2D. The CpGs reveal coherent, nuclear regulatory disturbances in canonical immune activation pathways, as well as metabolic networks involved in insulin signalling, fatty acid metabolism and lipid transport, which are causally linked to development of T2D. The CpGs have potential clinical utility as biomarkers. An array-based composite Methylation Risk Score (MRS) is predictive for future T2D (RR: 5.2 in Q4 vs Q1; P=7×10), and is additive to genetic risk. Targeted methylation sequencing revealed multiple additional CpGs predicting T2D, and synthesis of a sequencing-based MRS that is strongly predictive for T2D (RR: 8.3 in Q4 vs Q1; P=1.0×10). Importantly, MRS varies between Asian ethnic groups, in a way that explains a large fraction of the difference in T2D risk between populations. We thus provide new insights into the nuclear regulatory disturbances that precede development of T2D, and reveal the potential for sequence-based DNA methylation markers to inform risk stratification in diabetes prevention.

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