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Genome-wide polygenic score to predict chronic kidney disease across ancestries

by Meigs, James B. , Bhatraju, Pavan K. , Jarvik, Gail P. , Kachulis, Christopher , Turchin, Michael C. , Shang, Ning , Chandler, Paulette , Abul-Husn, Noura S. , Schaid, Daniel J. , Chung, Wendy K. , Smoller, Jordan W. , Hripcsak, George , Lange, Christoph , Kiryluk, Krzysztof , Jones, Alana C. , Lennon, Niall , Cho, Judy H. , Patki, Amit , Irvin, Marguerite R. , Malolepsza, Edyta , Limdi, Nita A. , Ionita-Laza, Iuliana , Hellwege, Jacklyn N. , Nadukuru, Rajiv , Dikilitas, Ozan , Srinivasasainagendra, Vinodh , Nadkarni, Girish , Liu, Cong , Gharavi, Ali G. , Weng, Chunhua , Khan, Atlas , Fedotov, Alex , Tiwari, Hemant K. , Crosslin, David R. , Kenny, Eimear E. , Karlson, Elizabeth , Ge, Tian , Torvik, Laura Rasmussen , Kullo, Iftikhar J.

in 631/208/1516 / 692/499 / 692/699/1585/104 / Apolipoprotein L1 - genetics / Biomedical and Life Sciences / Biomedicine / Cancer Research / Genealogy / Genetic Predisposition to Disease - genetics / Genetics / Genome-wide association studies / Genome-Wide Association Study / Genomes / Genotype / Genotypes / Humans / Infectious Diseases / Kidney diseases / Kidneys / Metabolic Diseases / Molecular Medicine / Morbidity / Multifactorial Inheritance - genetics / Neurosciences / Polymorphism, Single Nucleotide - genetics / Renal Insufficiency, Chronic - diagnosis / Renal Insufficiency, Chronic - genetics / Risk

2022

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2022

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2022

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Journal Article

Genome-wide polygenic score to predict chronic kidney disease across ancestries

Meigs, James B.,

Bhatraju, Pavan K.,

Jarvik, Gail P.,

Kachulis, Christopher,

Turchin, Michael C.,

Shang, Ning,

Chandler, Paulette,

Abul-Husn, Noura S.,

Schaid, Daniel J.,

Chung, Wendy K.,

Smoller, Jordan W.,

Hripcsak, George,

Lange, Christoph,

Kiryluk, Krzysztof,

Jones, Alana C.,

Lennon, Niall,

Cho, Judy H.,

Patki, Amit,

Irvin, Marguerite R.,

Malolepsza, Edyta,

Limdi, Nita A.,

Ionita-Laza, Iuliana,

Hellwege, Jacklyn N.,

Nadukuru, Rajiv,

Dikilitas, Ozan,

Srinivasasainagendra, Vinodh,

Nadkarni, Girish,

Liu, Cong,

Gharavi, Ali G.,

Weng, Chunhua,

Khan, Atlas,

Fedotov, Alex,

Tiwari, Hemant K.,

Crosslin, David R.,

Kenny, Eimear E.,

Karlson, Elizabeth,

Ge, Tian,

Torvik, Laura Rasmussen,

Kullo, Iftikhar J.

2022

Overview

Chronic kidney disease (CKD) is a common complex condition associated with high morbidity and mortality. Polygenic prediction could enhance CKD screening and prevention; however, this approach has not been optimized for ancestrally diverse populations. By combining APOL1 risk genotypes with genome-wide association studies (GWAS) of kidney function, we designed, optimized and validated a genome-wide polygenic score (GPS) for CKD. The new GPS was tested in 15 independent cohorts, including 3 cohorts of European ancestry ( n = 97,050), 6 cohorts of African ancestry ( n = 14,544), 4 cohorts of Asian ancestry ( n = 8,625) and 2 admixed Latinx cohorts ( n = 3,625). We demonstrated score transferability with reproducible performance across all tested cohorts. The top 2% of the GPS was associated with nearly threefold increased risk of CKD across ancestries. In African ancestry cohorts, the APOL1 risk genotype and polygenic component of the GPS had additive effects on the risk of CKD. A new study generated and optimized a polygenic score for chronic kidney disease with reproducible performance across 15 cohorts of different ancestries, and identified potentially clinically relevant thresholds with predicted effects comparable to having a family history of the disease.

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Publisher

Nature Publishing Group US,Nature Publishing Group

Subject

631/208/1516

/ 692/499

/ 692/699/1585/104

/ Apolipoprotein L1 - genetics

/ Biomedical and Life Sciences

/ Biomedicine

/ Cancer Research