Epigenome-Wide association Study of Serum Urate Reveals insights into Urate Co-Regulation and the Slc2A9 Locus

Authors

• Adrienne Tin
• Pascal Schlosser
• Pamela R Matias-Garcia
• Chris H L Thio
• Roby Joehanes
• Hongbo Liu
• Zhi Yu
• Antoine Weihs
• Anselm Hoppmann
• Franziska Grundner-Culemann
• Josine L Min
• Victoria L Halperin Kuhns
• Adebowale A Adeyemo
• Charles Agyemang
• Johan Ärnlöv
• Nasir A Aziz
• Andrea Baccarelli
• Murielle Bochud
• Hermann Brenner
• Jan Bressler
• Monique M B Breteler
• Cristian Carmeli
• Layal Chaker
• Josef Coresh
• Tanguy Corre
• Adolfo Correa
• Simon R Cox
• Graciela E Delgado
• Kai-Uwe Eckardt
• Arif B Ekici
• Karlhans Endlich
• James S Floyd
• Eliza Fraszczyk
• Xu Gao
• Xīn Gào
• Allan C Gelber
• Mohsen Ghanbari
• Sahar Ghasemi
• Christian Gieger
• Philip Greenland
• Megan L Grove
• Sarah E Harris
• Gibran Hemani
• Peter Henneman
• Christian Herder
• Steve Horvath
• Lifang Hou
• Mikko A Hurme
• Shih-Jen Hwang
• Sharon L R Kardia
• Silva Kasela
• Marcus E Kleber
• Wolfgang Koenig
• Jaspal S Kooner
• Florian Kronenberg
• Brigitte Kühnel
• Christine Ladd-Acosta
• Terho Lehtimäki
• Lars Lind
• Dan Liu
• Donald M Lloyd-Jones
• Stefan Lorkowski
• Ake T Lu
• Riccardo E Marioni
• Winfried März
• Daniel L McCartney
• Karlijn A C Meeks
• Lili Milani
• Pashupati P Mishra
• Matthias Nauck
• Christoph Nowak
• Annette Peters
• Holger Prokisch
• Bruce M Psaty
• Olli T Raitakari
• Scott M Ratliff
• Alex P Reiner
• Ben Schöttker
• Joel Schwartz
• Sanaz Sedaghat
• Jennifer A Smith
• Nona Sotoodehnia
• Hannah R Stocker
• Silvia Stringhini
• Johan Sundström
• Brenton R Swenson
• Joyce B J van Meurs
• Jana V van Vliet-Ostaptchouk
• Andrea Venema
• Uwe Völker
• Juliane Winkelmann
• Bruce H R Wolffenbuttel
• Wei Zhao
• Yinan Zheng
• Marie Loh
• Harold Snieder
• Melanie Waldenberger
• Daniel Levy
• Shreeram Akilesh
• Owen M Woodward
• Katalin Susztak
• Alexander Teumer
• Anna Köttgen

Language

English

Publication Date

12-9-2021

Journal

Nature Communication

DOI

10.1038/s41467-021-27198-4

PMID

34887389

PMCID

PMC8660809

PubMedCentral® Posted Date

December 2021

PubMedCentral® Full Text Version

Post-print

Abstract

Elevated serum urate levels, a complex trait and major risk factor for incident gout, are correlated with cardiometabolic traits via incompletely understood mechanisms. DNA methylation in whole blood captures genetic and environmental influences and is assessed in transethnic meta-analysis of epigenome-wide association studies (EWAS) of serum urate (discovery, n = 12,474, replication, n = 5522). The 100 replicated, epigenome-wide significant (p < 1.1E-7) CpGs explain 11.6% of the serum urate variance. At SLC2A9, the serum urate locus with the largest effect in genome-wide association studies (GWAS), five CpGs are associated with SLC2A9 gene expression. Four CpGs at SLC2A9 have significant causal effects on serum urate levels and/or gout, and two of these partly mediate the effects of urate-associated GWAS variants. In other genes, including SLC7A11 and PHGDH, 17 urate-associated CpGs are associated with conditions defining metabolic syndrome, suggesting that these CpGs may represent a blood DNA methylation signature of cardiometabolic risk factors. This study demonstrates that EWAS can provide new insights into GWAS loci and the correlation of serum urate with other complex traits.

Keywords

Amino Acid Transport System y+, Cohort Studies, CpG Islands, DNA Methylation, Epigenome, Female, Genetic Predisposition to Disease, Genome-Wide Association Study, Glucose Transport Proteins, Facilitative, Gout, Humans, Male, Uric Acid

Recommended Citation

Tin, Adrienne; Schlosser, Pascal; Matias-Garcia, Pamela R; et al., "Epigenome-Wide association Study of Serum Urate Reveals insights into Urate Co-Regulation and the Slc2A9 Locus" (2021). Faculty, Staff and Student Publications. 84.
https://digitalcommons.library.tmc.edu/uthsph_docs/84