Meta-analysis uncovers genome-wide significant variants for rapid kidney function decline

-, -; Gorski, Mathias; Jung, Bettina; Li, Yong; Matias-Garcia, Pamela R; Wuttke, Matthias; Coassin, Stefan; Thio, Chris H L; Kleber, Marcus E; Winkler, Thomas W; Wanner, Veronika; Chai, Jin-Fang; Chu, Audrey Y; Cocca, Massimiliano; Feitosa, Mary F; Ghasemi, Sahar; Hoppmann, Anselm; Horn, Katrin; Li, Man; Nutile, Teresa; Scholz, Markus; Sieber, Karsten B; Teumer, Alexander; Tin, Adrienne; Wang, Judy; Tayo, Bamidele O; Ahluwalia, Tarunveer S; Almgren, Peter; Bakker, Stephan J L; Banas, Bernhard; Bansal, Nisha; Biggs, Mary L; Boerwinkle, Eric; Bottinger, Erwin P; Brenner, Hermann; Carroll, Robert J; Chalmers, John; Chee, Miao-Li; Chee, Miao-Ling; Cheng, Ching-Yu; Coresh, Josef; de Borst, Martin H; Degenhardt, Frauke; Eckardt, Kai-Uwe; Hutri-Kähönen, Nina; Kähönen, Mika; Lehtimäki, Terho; Lyytikäinen, Leo-Pekka; Mishra, Pashupati P; Mononen, Nina; Nikus, Kjell (2020-04-01)
 
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-, -
Gorski, Mathias
Jung, Bettina
Li, Yong
Matias-Garcia, Pamela R
Wuttke, Matthias
Coassin, Stefan
Thio, Chris H L
Kleber, Marcus E
Winkler, Thomas W
Wanner, Veronika
Chai, Jin-Fang
Chu, Audrey Y
Cocca, Massimiliano
Feitosa, Mary F
Ghasemi, Sahar
Hoppmann, Anselm
Horn, Katrin
Li, Man
Nutile, Teresa
Scholz, Markus
Sieber, Karsten B
Teumer, Alexander
Tin, Adrienne
Wang, Judy
Tayo, Bamidele O
Ahluwalia, Tarunveer S
Almgren, Peter
Bakker, Stephan J L
Banas, Bernhard
Bansal, Nisha
Biggs, Mary L
Boerwinkle, Eric
Bottinger, Erwin P
Brenner, Hermann
Carroll, Robert J
Chalmers, John
Chee, Miao-Li
Chee, Miao-Ling
Cheng, Ching-Yu
Coresh, Josef
de Borst, Martin H
Degenhardt, Frauke
Eckardt, Kai-Uwe
Hutri-Kähönen, Nina
Kähönen, Mika
Lehtimäki, Terho
Lyytikäinen, Leo-Pekka
Mishra, Pashupati P
Mononen, Nina
Nikus, Kjell
01.04.2020

KIDNEY INTERNATIONAL
doi:10.1016/j.kint.2020.09.030
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https://urn.fi/URN:NBN:fi:tuni-202202212065

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Tiivistelmä
<p>Rapid decline of glomerular filtration rate estimated from creatinine (eGFRcrea) is associated with severe clinical endpoints. In contrast to cross-sectionally assessed eGFRcrea, the genetic basis for rapid eGFRcrea decline is largely unknown. To help define this, we meta-analyzed 42 genome-wide association studies from the Chronic Kidney Diseases Genetics Consortium and United Kingdom Biobank to identify genetic loci for rapid eGFRcrea decline. Two definitions of eGFRcrea decline were used: 3 mL/min/1.73m2/year or more ("Rapid3"; encompassing 34,874 cases, 107,090 controls) and eGFRcrea decline 25% or more and eGFRcrea under 60 mL/min/1.73m2 at follow-up among those with eGFRcrea 60 mL/min/1.73m2 or more at baseline ("CKDi25"; encompassing 19,901 cases, 175,244 controls). Seven independent variants were identified across six loci for Rapid3 and/or CKDi25: consisting of five variants at four loci with genome-wide significance (near UMOD-PDILT (2), PRKAG2, WDR72, OR2S2) and two variants among 265 known eGFRcrea variants (near GATM, LARP4B). All these loci were novel for Rapid3 and/or CKDi25 and our bioinformatic follow-up prioritized variants and genes underneath these loci. The OR2S2 locus is novel for any eGFRcrea trait including interesting candidates. For the five genome-wide significant lead variants, we found supporting effects for annual change in blood urea nitrogen or cystatin-based eGFR, but not for GATM or LARP4B. Individuals at high compared to those at low genetic risk (8-14 vs 0-5 adverse alleles) had a 1.20-fold increased risk of acute kidney injury (95% confidence interval 1.08-1.33). Thus, our identified loci for rapid kidney function decline may help prioritize therapeutic targets and identify mechanisms and individuals at risk for sustained deterioration of kidney function.</p>
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