Author:
Yang Yang,Badura Michelle L.,O’Leary Patrick C.,Delavan Henry M.,Robinson Troy M.,Egusa Emily A.,Zhong Xiaoming,Swinderman Jason T.,Li Haolong,Zhang Meng,Kim Minkyu,Ashworth Alan,Feng Felix Y.,Chou Jonathan,Yang Lixing
Abstract
AbstractDespite the abundance of somatic structural variations (SVs) in cancer, the underlying molecular mechanisms of their formation remain unclear. Here, we use 6,193 whole-genome sequenced tumors to study the contributions of transcription and DNA replication collisions to genome instability. After deconvoluting robust SV signatures in three independent pan-cancer cohorts, we detect transcription-dependent replicated-strand bias, the expected footprint of transcription-replication collision (TRC), in large tandem duplications (TDs). Large TDs are abundant in female-enriched, upper gastrointestinal tract and prostate cancers. They are associated with poor patient survival and mutations inTP53,CDK12, andSPOP. Upon inactivating CDK12, cells display significantly more TRCs, R-loops, and large TDs. Inhibition of G2/M checkpoint proteins, such as WEE1, CHK1, and ATR, selectively inhibits the growth of cells deficient in CDK12. Our data suggest that large TDs in cancer form due to TRCs, and their presence can be used as a biomarker for prognosis and treatment.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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