Single allele loss-of-function mutations select and sculpt conditional cooperative networks in breast cancer.
Nathan F SchachterJessica R AdamsPatryk SkowronKatelyn J KozmaChristian A LeeNandini RaghuramJoanna YangAmanda J LochWei WangAaron KucharczukKatherine L WrightRita M QuintanaYeji AnDaniel DotzkoJennifer L GormanDaria WojtalJuhi S ShahPaul Leon-GomezGiovanna PellecchiaAdam J DupuyCharles M PerouIttai Ben-PorathRotem KarniEldad ZacksenhausJim R WoodgettSusan J DoneLivia GarziaA Sorana MorrissyJüri ReimandMichael D TaylorSean E EganPublished in: Nature communications (2021)
The most common events in breast cancer (BC) involve chromosome arm losses and gains. Here we describe identification of 1089 gene-centric common insertion sites (gCIS) from transposon-based screens in 8 mouse models of BC. Some gCIS are driver-specific, others driver non-specific, and still others associated with tumor histology. Processes affected by driver-specific and histology-specific mutations include well-known cancer pathways. Driver non-specific gCIS target the Mediator complex, Ca++ signaling, Cyclin D turnover, RNA-metabolism among other processes. Most gCIS show single allele disruption and many map to genomic regions showing high-frequency hemizygous loss in human BC. Two gCIS, Nf1 and Trps1, show synthetic haploinsufficient tumor suppressor activity. Many gCIS act on the same pathway responsible for tumor initiation, thereby selecting and sculpting just enough and just right signaling. These data highlight ~1000 genes with predicted conditional haploinsufficient tumor suppressor function and the potential to promote chromosome arm loss in BC.