Genetic associations at 53 loci highlight cell types and biological pathways relevant for kidney function

Cristian Pattaro; Idris Guessous

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Author Notes:

Correspondence and requests for materials should be addressed to C.P. (email: cristian.pattaro@eurac.edu) or to A.K. (email: anna.koettgen@uniklinik-freiburg.de) or to C.S.F. (email: foxca@nhlbi.nih.gov).

A full list of authors, their affiliations, and their contributions appears at the end of the paper.

Study-specific acknowledgements and funding sources for participating studies are reported in Supplementary Note.

J.T. and P.H. are consultants for Servier. J.C. received research grants and honoraria from Servier. K.S. obtained research support from Boehringer Ingelheim. The remaining authors declared no competing financial interests.

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Research Funding:

Zebrafish work was supported by NIH R01DK090311 and R24OD017870 to W.G.

Keywords:

Science & Technology
Multidisciplinary Sciences
Science & Technology - Other Topics
GENOME-WIDE ASSOCIATION
FALSE DISCOVERY RATES
STAGE RENAL-DISEASE
SERUM CREATININE
METAANALYSIS
VARIANTS
INDIVIDUALS
POPULATION
RISK
HYPERTENSION

Genetic associations at 53 loci highlight cell types and biological pathways relevant for kidney function

Cristian Pattaro, European Academy of Bozen/Bolzano (EURAC)

Idris Guessous, Emory University

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Journal Title:

Nature Communications

Volume:

Volume 7

Publisher:

Nature Publishing Group: Nature Communications | 2016-01-01, Pages 10023-10023

Type of Work:

Article | Final Publisher PDF

Permanent URL:

https://pid.emory.edu/ark:/25593/rms3s

Publisher DOI:

http://doi.org/10.1038/ncomms10023

Abstract:

Reduced glomerular filtration rate defines chronic kidney disease and is associated with cardiovascular and all-cause mortality. We conducted a meta-analysis of genome-wide association studies for estimated glomerular filtration rate (eGFR), combining data across 133,413 individuals with replication in up to 42,166 individuals. We identify 24 new and confirm 29 previously identified loci. Of these 53 loci, 19 associate with eGFR among individuals with diabetes. Using bioinformatics, we show that identified genes at eGFR loci are enriched for expression in kidney tissues and in pathways relevant for kidney development and transmembrane transporter activity, kidney structure, and regulation of glucose metabolism. Chromatin state mapping and DNase I hypersensitivity analyses across adult tissues demonstrate preferential mapping of associated variants to regulatory regions in kidney but not extra-renal tissues. These findings suggest that genetic determinants of eGFR are mediated largely through direct effects within the kidney and highlight important cell types and biological pathways.

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This is an Open Access work distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/).

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Keywords:

Genetic associations at 53 loci highlight cell types and biological pathways relevant for kidney function

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