Genetic architecture of telomere length in 462,666 UK Biobank whole-genome sequences
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Published:2024-08-27
Issue:9
Volume:56
Page:1832-1840
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ISSN:1061-4036
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Container-title:Nature Genetics
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language:en
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Short-container-title:Nat Genet
Author:
Burren Oliver S., Dhindsa Ryan S.ORCID, Deevi Sri V. V.ORCID, Wen Sean, Nag Abhishek, Mitchell Jonathan, Hu Fengyuan, Loesch Douglas P., Smith Katherine R.ORCID, Razdan Neetu, Olsson HenricORCID, Platt AdamORCID, Vitsios DimitriosORCID, Wu Qiang, , Ågren Rasmus, Anderson-Dring Lauren, Atanur Santosh, Baker David, Belvisi Maria, Bohlooly-Y Mohammad, Buvall Lisa, Cameron-Christie Sophia, Cohen Suzanne, Danielson Regina F., Das Shikta, Davis Andrew, del Angel Guillermo, Ding Wei, Dougherty Brian, Fairhurst-Hunter Zammy, Garg Manik, Georgi Benjamin, Rangel Carmen Guerrero, Harper Andrew, Haefliger Carolina, Hammar Mårten, Hanna Richard N., Hansen Pernille B. L., Harrow Jennifer, Henry Ian, Hess Sonja, Hollis Ben, Jiang Xiao, Kundu Kousik, Lai Zhongwu, Lal Mark, Lassi Glenda, Liang Yupu, Lopes Margarida, Lou Eagle, Lythgow Kieren, MacArthur Stewart, Maisuria-Armer Meeta, March Ruth, Martins Carla, Matelska Dorota, Megy Karine, Menzies Rob, Michaëlsson Erik, Middleton Fiona, Mowrey Bill, Muthas Daniel, O’Dell Sean, Oerton Erin, Ohne Yoichiro, Olsson Henric, O’Neill Amanda, Ostridge Kristoffer, Paul Dirk, Prins Bram, Pullman Benjamin, Rae William, Raies Arwa, Reznichenko Anna, Ros Xavier Romero, Sanganee Hitesh, Ben Sidders , Snowden Mike, Stankovic Stasa, Stevens Helen, Tachmazidou Ioanna, Taiy Haeyam, Tian Lifeng, Underwood Christina, Viollet Coralie, Walentinsson Anna, Wang Lily, Wang Qing-Dong, Wheeler Eleanor, Zehir Ahmet, Zou Zoe, Codd Veryan, Nelson Christopher P., Samani Nilesh J., March Ruth E., Wasilewski Sebastian, Carss KerenORCID, Fabre Margarete, Wang Quanli, Pangalos Menelas N., Petrovski SlavéORCID
Abstract
AbstractTelomeres protect chromosome ends from damage and their length is linked with human disease and aging. We developed a joint telomere length metric, combining quantitative PCR and whole-genome sequencing measurements from 462,666 UK Biobank participants. This metric increased SNP heritability, suggesting that it better captures genetic regulation of telomere length. Exome-wide rare-variant and gene-level collapsing association studies identified 64 variants and 30 genes significantly associated with telomere length, including allelic series in ACD and RTEL1. Notably, 16% of these genes are known drivers of clonal hematopoiesis—an age-related somatic mosaicism associated with myeloid cancers and several nonmalignant diseases. Somatic variant analyses revealed gene-specific associations with telomere length, including lengthened telomeres in individuals with large SRSF2-mutant clones, compared with shortened telomeres in individuals with clonal expansions driven by other genes. Collectively, our findings demonstrate the impact of rare variants on telomere length, with larger effects observed among genes also associated with clonal hematopoiesis.
Funder
RCUK | Medical Research Council DH | National Institute for Health Research British Heart Foundation
Publisher
Springer Science and Business Media LLC
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