The Genetic Determinants and Genomic Consequences of Non-Leukemogenic Somatic Point Mutations.

TitleThe Genetic Determinants and Genomic Consequences of Non-Leukemogenic Somatic Point Mutations.
Publication TypeJournal Article
Year of Publication2024
AuthorsWeinstock, JS, Chaudhry, SA, Ioannou, M, Viskadourou, M, Reventun, P, Jakubek, YA, L Liggett, A, Laurie, C, Broome, JG, Khan, A, Taylor, KD, Guo, X, Peyser, PA, Boerwinkle, E, Chami, N, Kenny, EE, Loos, RJ, Psaty, BM, Russell, TP, Brody, JA, Yun, JH, Cho, MH, Vasan, RS, Kardia, SL, Smith, JA, Raffield, LM, Bidulescu, A, O'Brien, E, de Andrade, M, Rotter, JI, Rich, SS, Tracy, RP, Chen, YDer Ida, C Gu, C, Hsiung, CA, Kooperberg, C, Haring, B, Nassir, R, Mathias, R, Reiner, A, Sankaran, V, Lowenstein, CJ, Blackwell, TW, Abecasis, GR, Smith, AV, Kang, HM, Natarajan, P, Jaiswal, S, Bick, A, Post, WS, Scheet, P, Auer, P, Karantanos, T, Battle, A, Arvanitis, M
JournalmedRxiv
Date Published2024 Aug 26
Abstract

Clonal hematopoiesis (CH) is defined by the expansion of a lineage of genetically identical cells in blood. Genetic lesions that confer a fitness advantage, such as point mutations or mosaic chromosomal alterations (mCAs) in genes associated with hematologic malignancy, are frequent mediators of CH. However, recent analyses of both single cell-derived colonies of hematopoietic cells and population sequencing cohorts have revealed CH frequently occurs in the absence of known driver genetic lesions. To characterize CH without known driver genetic lesions, we used 51,399 deeply sequenced whole genomes from the NHLBI TOPMed sequencing initiative to perform simultaneous germline and somatic mutation analyses among individuals without leukemogenic point mutations (LPM), which we term CH-LPMneg. We quantified CH by estimating the total mutation burden. Because estimating somatic mutation burden without a paired-tissue sample is challenging, we developed a novel statistical method, the Genomic and Epigenomic informed Mutation (GEM) rate, that uses external genomic and epigenomic data sources to distinguish artifactual signals from true somatic mutations. We performed a genome-wide association study of GEM to discover the germline determinants of CH-LPMneg. After fine-mapping and variant-to-gene analyses, we identified seven genes associated with CH-LPMneg (, , ), and one locus associated with a sex-associated mutation pathway (. We performed a secondary analysis excluding individuals with mCAs, finding that the genetic architecture was largely unaffected by their inclusion. Functional analyses of and implicated altered HSC self-renewal and proliferation as the primary mediator of mutation burden in blood. We then performed comprehensive multi-tissue transcriptomic analyses, finding that the expression levels of 404 genes are associated with GEM. Finally, we performed phenotypic association meta-analyses across four cohorts, finding that GEM is associated with increased white blood cell count and increased risk for incident peripheral artery disease, but is not significantly associated with incident stroke or coronary disease events. Overall, we develop GEM for quantifying mutation burden from WGS without a paired-tissue sample and use GEM to discover the genetic, genomic, and phenotypic correlates of CH-LPMneg.

DOI10.1101/2024.08.22.24312319
Alternate JournalmedRxiv
PubMed ID39228737
PubMed Central IDPMC11370504
Grant ListHHSN268201800001C / HL / NHLBI NIH HHS / United States
R01 HL117626 / HL / NHLBI NIH HHS / United States
R01 HL120393 / HL / NHLBI NIH HHS / United States
U01 HL120393 / HL / NHLBI NIH HHS / United States