Epigenome-wide association studies identify DNA methylation associated with kidney function

被引:0
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作者
Audrey Y. Chu
Adrienne Tin
Pascal Schlosser
Yi-An Ko
Chengxiang Qiu
Chen Yao
Roby Joehanes
Morgan E. Grams
Liming Liang
Caroline A. Gluck
Chunyu Liu
Josef Coresh
Shih-Jen Hwang
Daniel Levy
Eric Boerwinkle
James S. Pankow
Qiong Yang
Myriam Fornage
Caroline S. Fox
Katalin Susztak
Anna Köttgen
机构
[1] The Population Sciences Branch,Department of Epidemiology
[2] Division of Intramural Research,Department of Medicine
[3] NHLBI,Department of Biostatistics
[4] NIH,Department of Biostatistics
[5] NHLBI’s Framingham Heart Study,undefined
[6] Johns Hopkins Bloomberg School of Public Health,undefined
[7] Institute of Genetic Epidemiology,undefined
[8] Faculty of Medicine and Medical Center—University of Freiburg,undefined
[9] Renal Electrolyte and Hypertension Division,undefined
[10] Department of Medicine,undefined
[11] Department of Genetics,undefined
[12] University of Pennsylvania,undefined
[13] Perelman School of Medicine,undefined
[14] Institute of Aging Research,undefined
[15] Hebrew Senior Life,undefined
[16] Beth Israel Deaconess Medical Center and Harvard Medical School,undefined
[17] Harvard University School of Public Health,undefined
[18] Human Genetics Center,undefined
[19] University of Texas Health Science Center,undefined
[20] Division of Epidemiology & Community Health,undefined
[21] School of Public Health,undefined
[22] University of Minnesota,undefined
[23] Boston University School of Public Health,undefined
来源
Nature Communications | / 8卷
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摘要
Chronic kidney disease (CKD) is defined by reduced estimated glomerular filtration rate (eGFR). Previous genetic studies have implicated regulatory mechanisms contributing to CKD. Here we present epigenome-wide association studies of eGFR and CKD using whole-blood DNA methylation of 2264 ARIC Study and 2595 Framingham Heart Study participants to identify epigenetic signatures of kidney function. Of 19 CpG sites significantly associated (P < 1e-07) with eGFR/CKD and replicated, five also associate with renal fibrosis in biopsies from CKD patients and show concordant DNA methylation changes in kidney cortex. Lead CpGs at PTPN6/PHB2, ANKRD11, and TNRC18 map to active enhancers in kidney cortex. At PTPN6/PHB2 cg19942083, methylation in kidney cortex associates with lower renal PTPN6 expression, higher eGFR, and less renal fibrosis. The regions containing the 243 eGFR-associated (P < 1e-05) CpGs are significantly enriched for transcription factor binding sites of EBF1, EP300, and CEBPB (P < 5e-6). Our findings highlight kidney function associated epigenetic variation.
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