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Genomic heterogeneity as a barrier to precision oncology in urothelial cancer

Timothy N. Clinton, Ziyu Chen, Hannah Wise, Andrew T. Lenis, Shweta S. Chavan, Mark T.A. Donoghue, Nima Almassi, Carissa Chu, Shawn Dason, Pavitra Rao, James A. Rodrigues, Naresh Vasani, Fourat Ridouani, Jonathan E. Rosenberg, Dean F. Bajorin, Min Yuen Teo, Bernard H. Bochner, Michael F. Berger, Irina Ostrovnaya, Eugene J. Pietzak, Gopa Iyer, Sizhi Paul Gao, Wenhuo Hu, Hikmat Al‐Ahmadie, David B. Solit

2022Cell Reports71 citationsDOIOpen Access PDF

Abstract

Precision oncology relies on the accurate molecular characterization of individual patients with cancer at the time of treatment initiation. However, tumor molecular profiles are not static, and cancers continually evolve because of ongoing mutagenesis and clonal selection. Here, we performed genomic analyses of primary tumors, metastases, and plasma collected from individual patients to define the concordance of actionable genomic alterations and to identify drivers of metastatic disease progression. We observed a high degree of discordance of actionable genomic alterations, with 23% discordant between primary and metastatic disease sites. Among chromatin-modifying genes, ARID1A mutations, when discordant, were exclusive to the metastatic tumor samples. Our findings indicate that the high degree of lesion-to-lesion genomic heterogeneity may be a barrier to precision oncology approaches for bladder cancer and that circulating tumor DNA profiling may be preferred to tumor sequencing for a subset of patients.

Topics & Concepts

Somatic evolution in cancerConcordancePrecision medicineBiologyBladder cancerCancerOncologyPrimary tumorCancer researchARID1AInternal medicineComputational biologyBioinformaticsGeneMedicineMetastasisMutationGeneticsBladder and Urothelial Cancer TreatmentsEpigenetics and DNA MethylationCancer Genomics and Diagnostics