Skip to main content

Mapping eGFR loci to the renal transcriptome and phenome in the VA Million Veteran Program


AUTHORS

Hellwege JN , Velez Edwards DR , Giri A , Qiu C , Park J , Torstenson ES , Keaton JM , Wilson OD , Robinson-Cohen C , Chung CP , Roumie CL , Klarin D , Damrauer SM , DuVall SL , Siew E , Akwo EA , Wuttke M , Gorski M , Li M , Li Y , Gaziano JM , Wilson PWF , Tsao PS , O'Donnell CJ , Kovesdy CP , Pattaro C , Köttgen A , Susztak K , Edwards TL , Hung AM , . Nature communications. 2019 8 26; 10(1). 3842

ABSTRACT

Chronic kidney disease (CKD), defined by low estimated glomerular filtration rate (eGFR), contributes to global morbidity and mortality. Here we conduct a transethnic Genome-Wide Association Study of eGFR in 280,722 participants of the Million Veteran Program (MVP), with replication in 765,289 participants from the Chronic Kidney Disease Genetics (CKDGen) Consortium. We identify 82 previously unreported variants, confirm 54 loci, and report interesting findings including association of the sickle cell allele of betaglobin among non-Hispanic blacks. Our transcriptome-wide association study of kidney function in healthy kidney tissue identifies 36 previously unreported and nine known genes, and maps gene expression to renal cell types. In a Phenome-Wide Association Study in 192,868 MVP participants using a weighted genetic score we detect associations with CKD stages and complications and kidney stones. This investigation reinterprets the genetic architecture of kidney function to identify the gene, tissue, and anatomical context of renal homeostasis and the clinical consequences of dysregulation.



Tags: ,