Epigenomic profiling reveals an association between persistence of DNA methylation and metabolic memory in the DCCT/EDIC type 1 diabetes cohort

Publication Description
We examined whether persistence of epigenetic DNA methylation (DNA-me) alterations at specific loci over two different time points in people with diabetes are associated with metabolic memory, the prolonged beneficial effects of intensive vs. conventional therapy during the Diabetes Control and Complications Trial (DCCT) on the progression of microvascular outcomes in the long-term follow-up Epidemiology of Diabetes Interventions and Complications (EDIC) Study. We compared DNA-me profiles in genomic DNA of whole blood (WB) isolated at EDIC Study baseline from 32 cases (DCCT conventional therapy group subjects showing retinopathy or albuminuria progression by EDIC Study year 10) vs. 31 controls (DCCT intensive therapy group subjects without complication progression by EDIC year 10). DNA-me was also profiled in blood monocytes (Monos) of the same patients obtained during EDIC Study years 16–17. In WB, 153 loci depicted hypomethylation, and 225 depicted hypermethylation, whereas in Monos, 155 hypomethylated loci and 247 hypermethylated loci were found (fold change ≥1.3; < 0.005; cases vs. controls). Twelve annotated differentially methylated loci were common in both WB and Monos, including thioredoxin-interacting protein ( ), known to be associated with hyperglycemia and related complications. A set of differentially methylated loci depicted similar trends of associations with prior HbA1c in both WB and Monos. In vitro, high glucose induced similar persistent hypomethylation at in cultured THP1 Monos. These results show that DNA-me differences during the DCCT persist at certain loci associated with glycemia for several years during the EDIC Study and support an epigenetic explanation for metabolic memory.

Primary Author
Chen,Zhuo
Miao,Feng
Paterson,Andrew D.
Lachin,John M.
Zhang,Lingxiao
Schones,Dustin E.
Wu,Xiwei
Wang,Jinhui
Tompkins,Joshua D.
Genuth,Saul
Braffett,Barbara H.
Riggs,Arthur D.
Natarajan,Rama

Volume
113

Issue
21

Start Page
E3002

Other Pages
E3011

Publisher
Proceedings of the National Academy of Sciences

URL
https://search.datacite.org/works/10.1073/pnas.1603712113

PMID
27162351



Reference Type
Journal Article

Periodical Full
Proceedings of the National Academy of Sciences - PNAS

Publication Year
2016

Place of Publication
United States

ISSN/ISBN
1091-6490

Document Object Index
10.1073/pnas.1603712113