期刊
CELL
卷 162, 期 1, 页码 33-44出版社
CELL PRESS
DOI: 10.1016/j.cell.2015.06.025
关键词
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资金
- NIH [R01-DK49780, K08-DK094968, R01-DK101478, R21-DK098769, K99-HL121172, P01-HL028481]
- JPB Foundation
- NIDDK Nuclear Receptor Signaling Atlas (NURSA)
- Functional Genomics Core of the Penn Diabetes Research Center [P30-DK19525]
- [AHA-13SDG14330006]
SNPs affecting disease risk often reside in non-coding genomic regions. Here, we show that SNPs are highly enriched at mouse strain-selective adipose tissue binding sites for PPAR gamma, a nuclear receptor for antidiabetic drugs. Many such SNPs alter binding motifs for PPAR gamma or cooperating factors and functionally regulate nearby genes whose expression is strain selective and imbalanced in heterozygous F1 mice. Moreover, genetically determined binding of PPAR gamma accounts for mouse strain-specific transcriptional effects of TZD drugs, providing proof of concept for personalized medicine related to nuclear receptor genomic occupancy. In human fat, motif-altering SNPs cause differential PPAR gamma binding, provide a molecular mechanism for some expression quantitative trait loci, and are risk factors for dysmetabolic traits in genome-wide association studies. One PPAR gamma motif-altering SNP is associated with HDL levels and other metabolic syndrome parameters. Thus, natural genetic variation in PPAR gamma genomic occupancy determines individual disease risk and drug response.
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