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GWAS Study

Genome-wide studies reveal factors associated with circulating uromodulin and its relations with complex diseases.

Li Y, Cheng Y, Consolato F et al.

35446786 PubMed ID
GWAS Study Type
13985 Participants
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Chapter I

Publication Details

Comprehensive information about this research publication

Authors

LY
Li Y
CY
Cheng Y
CF
Consolato F
SG
Schiano G
CM
Chong MR
PM
Pietzner M
NN
Nguyen NQH
SN
Scherer N
BM
Biggs ML
KM
Kleber ME
HS
Haug S
GB
Göçmen B
PM
Pigeyre M
SP
Sekula P
SI
Steinbrenner I
SP
Schlosser P
JC
Joseph CB
BJ
Brody JA
GM
Grams ME
HC
Hayward C
SU
Schultheiss UT
KB
Krämer BK
KF
Kronenberg F
PA
Peters A
SJ
Seissler J
SD
Steubl D
TC
Then C
WM
Wuttke M
MW
März W
EK
Eckardt KU
GC
Gieger C
BE
Boerwinkle E
PB
Psaty BM
CJ
Coresh J
OP
Oefner PJ
PG
Pare G
LC
Langenberg C
SJ
Scherberich JE
YB
Yu B
AS
Akilesh S
DO
Devuyst O
RL
Rampoldi L
KA
Köttgen A
Chapter II

Abstract

Summary of the research findings

Uromodulin (UMOD) is a major risk gene for monogenic and complex forms of kidney disease. The encoded kidney-specific protein uromodulin is highly abundant in urine and related to chronic kidney disease, hypertension, and pathogen defense. To gain insights into potential systemic roles, we performed genome-wide screens of circulating uromodulin using complementary antibody-based and aptamer-based assays. We detected 3 and 10 distinct significant loci, respectively. Integration of antibody-based results at the UMOD locus with functional genomics data (RNA-Seq, ATAC-Seq, Hi-C) of primary human kidney tissue highlighted an upstream variant with differential accessibility and transcription in uromodulin-synthesizing kidney cells as underlying the observed cis effect. Shared association patterns with complex traits, including chronic kidney disease and blood pressure, placed the PRKAG2 locus in the same pathway as UMOD. Experimental validation of the third antibody-based locus, B4GALNT2, showed that the p.Cys466Arg variant of the encoded N-acetylgalactosaminyltransferase had a loss-of-function effect leading to higher serum uromodulin levels. Aptamer-based results pointed to enzymes writing glycan marks present on uromodulin and to their receptors in the circulation, suggesting that this assay permits investigating uromodulin's complex glycosylation rather than its quantitative levels. Overall, our study provides insights into circulating uromodulin and its emerging functions.

11,369 European ancestry individuals, 400 African American individuals, 2,216 Hispanic individuals

Chapter III

Study Statistics

Key metrics and study information

13985
Total Participants
GWAS
Study Type
No
Replicated
European, African American or Afro-Caribbean, Hispanic or Latin American
Ancestry
U.S.
Recruitment Country
Chapter IV

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