尿路上皮癌
突变
生物
计算生物学
插入突变
遗传学
进化生物学
癌症
突变
基因组
基因
膀胱癌
作者
Duy Nguyen,William F. Hooper,Weisi Liu,Timothy R. Chu,Heather Geiger,Jennifer Shelton,Minita Shah,Zoe R. Goldstein,Lara Winterkorn,Adrienne Helland,Michael Sigouros,Jyothi Manohar,Jenna E. Moyer,Majd Al Assaad,Alissa Semaan,Sandra Cohen,Florencia P. Madorsky Rowdo,David Wilkes,Mohamed Osman,Rahul Singh
出处
期刊:Nature
[Nature Portfolio]
日期:2024-10-09
卷期号:635 (8037): 219-228
被引量:50
标识
DOI:10.1038/s41586-024-07955-3
摘要
, we observed frequent high copy-number circular amplicons characteristic of extrachromosomal DNA (ecDNA)-forming SVs. We characterized the distinct temporal patterns of APOBEC3-induced and chemotherapy-induced mutations within ecDNA-forming SVs, gaining new insights into the timing of these mutagenic processes relative to ecDNA biogenesis. We discovered that most CCND1 amplifications in urothelial cancer arise within circular ecDNA-forming SVs. ecDNA-forming SVs persisted and increased in complexity, incorporating additional DNA segments and contributing to the evolution of treatment resistance. Oxford Nanopore Technologies long-read whole-genome sequencing followed by de novo assembly mapped out CCND1 ecDNA structure. Experimental modelling of CCND1 ecDNA confirmed its role as a driver of treatment resistance. Our findings define fundamental mechanisms that drive urothelial cancer evolution and have important therapeutic implications.
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