The germline and somatic origins of prostate cancer heterogeneity

dc.contributor.authorYamaguchi, Takafumi N.
dc.contributor.authorHoulahan, Kathleen E.
dc.contributor.authorZhu, Helen
dc.contributor.authorKurganovs, Natalie
dc.contributor.authorLivingstone, Julie
dc.contributor.authorFox, Natalie S.
dc.contributor.authorYuan, Jiapei
dc.contributor.authorSietsma Penington, Jocelyn
dc.contributor.authorJung, Chol-Hee
dc.contributor.authorSchwarz, Tommer
dc.contributor.authorJaratlerdsiri, Weerachai
dc.contributor.authorVan Riet, Job
dc.contributor.authorGeorgeson, Peter
dc.contributor.authorMangiola, Stefano
dc.contributor.authorTaraszka, Kodi
dc.contributor.authorLesurf, Robert
dc.contributor.authorJiang, Jue
dc.contributor.authorChow, Ken
dc.contributor.authorHeisler, Lawrence E.
dc.contributor.authorShiah, Yu-Jia
dc.contributor.authorRamanand, Susmita G.
dc.contributor.authorClarkson, Michael J.
dc.contributor.authorNguyen, Anne
dc.contributor.authorEspiritu, Shadrielle Melijah G.
dc.contributor.authorStuchbery, Ryan
dc.contributor.authorJovelin, Richard
dc.contributor.authorHuang, Vincent
dc.contributor.authorBell, Connor
dc.contributor.authorO'Connor, Edward
dc.contributor.authorMccoy, Patrick J.
dc.contributor.authorLalansingh, Christopher M.
dc.contributor.authorCmero, Marek
dc.contributor.authorSalcedo, Adriana
dc.contributor.authorChan, Eva K.F.
dc.contributor.authorLiu, Lydia Y.
dc.contributor.authorStricker, Phillip D.
dc.contributor.authorBhandari, Vinayak
dc.contributor.authorBornman, Maria S. (Riana)
dc.contributor.authorSendorek, Dorota H.S.
dc.contributor.authorLonie, Andrew
dc.contributor.authorPark, Daniel J.
dc.contributor.authorHovington, Helene
dc.contributor.authorKerger, Michael
dc.contributor.authorBergeron, Alain
dc.contributor.authorSabelnykova, Veronica
dc.contributor.authorSeo, Ji-Heui
dc.contributor.authorPomerantz, Mark M.
dc.contributor.authorZaitlen, Noah
dc.contributor.authorWaszak, Sebastian M.
dc.contributor.authorGusev, Alexander
dc.contributor.authorLacombe, Louis
dc.contributor.authorFradet, Yves
dc.contributor.authorRyan, Andrew
dc.contributor.authorKishan, Amar U.
dc.contributor.authorLolkema, Martijn P.
dc.contributor.authorWeischenfeldt, Joachim
dc.contributor.authorTetu, Bernard
dc.contributor.authorCostello, Anthony J.
dc.contributor.authorHayes, Vanessa M.
dc.contributor.authorHung, Rayjean J.
dc.contributor.authorHe, Housheng H.
dc.contributor.authorMcPherson, John D.
dc.contributor.authorPasaniuc, Bogdan
dc.contributor.authorVan der Kwast, Theodorus
dc.contributor.authorPapenfuss, Anthony T.
dc.contributor.authorFreedman, Matthew L.
dc.contributor.authorPope, Bernard J.
dc.contributor.authorBristow, Robert G.
dc.contributor.authorMani, Ram S.
dc.contributor.authorCorcoran, Niall M.
dc.contributor.authorReimand, Jueri
dc.contributor.authorHovens, Christopher M.
dc.contributor.authorBoutros, Paul C.
dc.date.accessioned2025-06-13T10:06:02Z
dc.date.available2025-06-13T10:06:02Z
dc.date.issued2025-05
dc.descriptionDATA AVAILABILITY : All Canadian raw sequence data and variant calls are available on the European Genome-Phenome Archive (EGA) under accession EGAS00001000900 (https://www.ebi.ac.uk/ega/studies/EGAS-00001000900). Australian raw sequence data and variant calls are available on the EGA under accession EGAS00001003088 (https://www.ebi.ac.uk/ega/studies/EGAS00001003088). Canadian mRNA data are available on Gene Expression Omnibus (GEO) under accession GSE84043 (https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE84043). Baca WGS data are available on dbGaP under accession phs000447.v1.p1 (https://www.ncbi.nlm.nih.gov/gap/?term=phs000447.v1.p1). Berger WGS data are available on dbGaP under accession phs000330.v1.p1 (https://www.ncbi.nlm.nih.gov/gap/?term=phs000330.v1.p1). Weischenfeldt WGS data are available on the EGA under accession EGAS00001000400 (https://www.ebi.ac.uk/ega/studies/EGAS00001000400). TCGA WGS data are available at Genomic Data Commons Data Portal (https://portal.gdc.cancer.gov/projects/TCGA-PRAD). French ICGC WGS data are available on the EGA under accession EGAD00001003115 (https://www.ebi.ac.uk/ega/datasets/EGAD00001003115). UK ICGC WGS data are available on the EGA under accession (https://www.ebi.ac.uk/ega/datasets/EGAD00001001116). Processed germline variant calls are available through the ICGC Legacy SFTP server (Host: icgc-legacy-1417 sftp.platform.icgc-argo.org, Port: 2222) with approved DACO access (https://docs.icgc-1418argo.org/docs/data-access/icgc-25k-data). Detailed information on access to these data is available at: https://docs.icgc-argo.org/docs/data-access/icgc-25k-data. Methylation data are available in GEO under accession GSE84043. Primary samples’ ChIP-seq data were retrieved from GEO under accession GSE120738.
dc.description.abstractNewly diagnosed prostate cancers differ dramatically in mutational composition and lethality. The most accurate clinical predictor of lethality is tumor tissue architecture, quantified as tumor grade. To interrogate the evolutionary origins of prostate cancer heterogeneity, we analyzed 666 prostate tumor whole genomes. We identified a compendium of 223 recurrently mutated driver regions, most influencing downstream mutational processes and gene expression. We identified and validated individual germline variants that predispose tumors to acquire specific somatic driver mutations: these explain heterogeneity in disease presentation and ancestry differences. High-grade tumors have a superset of the drivers in lower-grade tumors, including increased frequency of BRCA2 and MYC mutations. Grade-associated driver mutations occur early in tumor evolution, and their earlier occurrence strongly predicts cancer relapse and metastasis. Our data suggest high- and low-grade prostate tumors both emerge from a common premalignant field, influenced by germline genomic context and stochastic mutation timing. SIGNIFICANCE : This study uncovered 223 recurrently mutated driver regions using the largest cohort of prostate tumors to date. It reveals associations between germline SNPs, somatic drivers, and tumor aggression, offering significant insights into how prostate tumor evolution is shaped by germline factors and the timing of somatic mutations.
dc.description.departmentSchool of Health Systems and Public Health (SHSPH)
dc.description.librarianhj2025
dc.description.sdgSDG-03: Good health and well-being
dc.description.sponsorshipThis study was conducted with support to P.C. Boutros by Prostate Cancer Canada proudly funded by the Movember Foundation, a Terry Fox Research Institute (TFRI) New Investigator Award, Genome Canada, a Canadian Institutes of Health Research (CIHR) New Investigator Award, the Canadian Cancer Society, CIHR Project, and a Prostate Cancer Foundation Special Challenge Award (20CHAS01) made possible by the generosity of Larry Ruvo. This work was supported by the Discovery Frontiers: Advancing Big Data Science in Genomics Research Program, jointly funded by the Natural Sciences and Engineering Research Council of Canada (NSERC), CIHR, Genome Canada, and Canada Foundation for Innovation (CFI). Funding from CPRIT Individual Investigator Research Award, the Research Council of Norway, the South-Eastern Norway Regional Health Authority, the University of Oslo, Joey and Toby Tanenbaum Brazilian Ball Chair in Prostate Cancer; the TFRI, the Ontario Institute for Cancer Research through funding provided by the Government of Ontario, the Cancer Research Society, NSERC, CIHR Canadian Graduate Scholarships, CIHR Vanier Fellowships, the Australian Prostate Cancer Research PhD Scholarship, the Prostate Cancer Canada Philip Feldberg Studentship, H.L. Snyder Medical Research Foundation , a Victorian Health and Medical Research Fellowship, the Cancer Association of South Africa, the Lorenzo and Pamela Galli Charitable Trust, the Victorian State Government Operational Infrastructure Support and Australian Government NHMRC Independent Research Institute Infrastructure Support, the Australian Prostate Cancer Center Epworth was supported by the Australian Government Department of Health and Ageing, a Postgraduate Medical Research Scholarship from the Prostate Cancer Research Fund and the Research Training Program Scholarship from the Australian Commonwealth Government, a Movember – Distinguished Gentleman’s Ride Clinician Scientist Award through the Prostate Cancer Foundation of Australia’s Research Program, the Carlo Vaccari Scholarship and Applied Pragmatic Clinical Research (APCR), the Victorian Cancer Agency (VCA) early career grant, Australian Prostate Cancer Research and the University of Melbourne, NHMRC grants, NIH awards, and Department of Defense awards.
dc.description.urihttps://aacrjournals.org/cancerdiscovery
dc.identifier.citationYamaguchi, T.N., Houlahan, K.E., Zhu, H. et al. 2025, 'The germline and somatic origins of prostate cancer heterogeneity', Cancer Discovery, vol. 15, no. 5, pp. 988-1017, doi : 10.1158/2159-8290.CD-23-0882.
dc.identifier.issn2159-8274 (print)
dc.identifier.issn2159-8290 (online)
dc.identifier.other10.1158/2159-8290.CD-23-0882
dc.identifier.urihttp://hdl.handle.net/2263/102824
dc.language.isoen
dc.publisherAmerican Association for Cancer Research
dc.rights© 2025 The Authors; Published by the American Association for Cancer Research.
dc.subjectProstate cancer
dc.subjectProstate tumor whole genomes
dc.subjectProstate tumor evolution
dc.subjectGermline factors
dc.subjectSomatic mutation
dc.titleThe germline and somatic origins of prostate cancer heterogeneity
dc.typeArticle

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