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Estimation and implications of the genetic architecture of fasting and non-fasting blood glucose

Zhen Qiao, Julia Sidorenko, Joana Revez, Angli Xue, Xueling Lu, Katri Pärna, Harold Snieder, Lifelines Cohort Study, Peter M. Visscher, Naomi R. Wray, Loïc Yengo

2023Nature Communications19 citationsDOIOpen Access PDF

Abstract

Abstract The genetic regulation of post-prandial glucose levels is poorly understood. Here, we characterise the genetic architecture of blood glucose variably measured within 0 and 24 h of fasting in 368,000 European ancestry participants of the UK Biobank. We found a near-linear increase in the heritability of non-fasting glucose levels over time, which plateaus to its fasting state value after 5 h post meal ( h 2 = 11%; standard error: 1%). The genetic correlation between different fasting times is > 0.77, suggesting that the genetic control of glucose is largely constant across fasting durations. Accounting for heritability differences between fasting times leads to a ~16% improvement in the discovery of genetic variants associated with glucose. Newly detected variants improve the prediction of fasting glucose and type 2 diabetes in independent samples. Finally, we meta-analysed summary statistics from genome-wide association studies of random and fasting glucose ( N = 518,615) and identified 156 independent SNPs explaining 3% of fasting glucose variance. Altogether, our study demonstrates the utility of random glucose measures to improve the discovery of genetic variants associated with glucose homeostasis, even in fasting conditions.

Topics & Concepts

Fasting glucoseGenetic architectureArchitectureEstimationInternal medicineMedicineEndocrinologyBiologyGeneticsDiabetes mellitusInsulin resistanceGenePhenotypeEconomicsGeographyManagementArchaeologyGenetic Associations and EpidemiologyGenetic Mapping and Diversity in Plants and AnimalsGenetic and phenotypic traits in livestock