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Meta-Analysis
. 2011 Oct 15;20(20):4056-68.
doi: 10.1093/hmg/ddr307. Epub 2011 Jul 18.

Genome-wide association study for serum urate concentrations and gout among African Americans identifies genomic risk loci and a novel URAT1 loss-of-function allele

Adrienne Tin  1 Owen M WoodwardWen Hong Linda KaoChing-Ti LiuXiaoning LuMichael A NallsDaniel ShrinerMariam SemmoErmeg L AkylbekovaSharon B WyattShih-Jen HwangQiong YangAlan B ZondermanAdebowale A AdeyemoCameron PalmerYan MengMuredach ReillyMichael G ShlipakDavid SiscovickMichele K EvansCharles N RotimiMichael F FlessnerMichael KöttgenL Adrienne CupplesCaroline S FoxAnna KöttgenCARe and CHARGE Consortia
Affiliations
Meta-Analysis

Genome-wide association study for serum urate concentrations and gout among African Americans identifies genomic risk loci and a novel URAT1 loss-of-function allele

Adrienne Tin et al. Hum Mol Genet. .

Abstract

Serum urate concentrations are highly heritable and elevated serum urate is a key risk factor for gout. Genome-wide association studies (GWAS) of serum urate in African American (AA) populations are lacking. We conducted a meta-analysis of GWAS of serum urate levels and gout among 5820 AA and a large candidate gene study among 6890 AA and 21 708 participants of European ancestry (EA) within the Candidate Gene Association Resource Consortium. Findings were tested for replication among 1996 independent AA individuals, and evaluated for their association among 28 283 EA participants of the CHARGE Consortium. Functional studies were conducted using (14)C-urate transport assays in mammalian Chinese hamster ovary cells. In the discovery GWAS of serum urate, three loci achieved genome-wide significance (P< 5.0 × 10(-8)): a novel locus near SGK1/SLC2A12 on chromosome 6 (rs9321453, P= 1.0 × 10(-9)), and two loci previously identified in EA participants, SLC2A9 (P= 3.8 × 10(-32)) and SLC22A12 (P= 2.1 × 10(-10)). A novel rare non-synonymous variant of large effect size in SLC22A12, rs12800450 (minor allele frequency 0.01, G65W), was identified and replicated (beta -1.19 mg/dl, P= 2.7 × 10(-16)). (14)C-urate transport assays showed reduced urate transport for the G65W URAT1 mutant. Finally, in analyses of 11 loci previously associated with serum urate in EA individuals, 10 of 11 lead single-nucleotide polymorphisms showed direction-consistent association with urate among AA. In summary, we identified and replicated one novel locus in association with serum urate levels and experimentally characterize the novel G65W variant in URAT1 as a functional allele. Our data support the importance of multi-ethnic GWAS in the identification of novel risk loci as well as functional variants.

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Figures

Figure 1.
Figure 1.
−log10(P-value) by genomic position plot for the GWAS of serum urate among 5820 AA participants.
Figure 2.
Figure 2.
Regional association plots of SNPs at the novel chromosome 6 locus near SGK1/SLC2A12 and their association with serum urate. The upper panel shows r2 as a measure of LD (red), and the lower one shows D′ (green).
Figure 3.
Figure 3.
Urate transport in mammalian CHO cells: normalized 14C urate transport rates in CHO cells transiently transfected with either the WT URAT1 or the G65W mutant (n= 9 for each; ±SEM).
See this image and copyright information in PMC

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