Embryonic Barcoding of Equipotent Mammary Progenitors Functionally Identifies Breast Cancer Drivers
Zhe, Ying, Slobodan, Beronja
Cell Stem Cell |
Identification of clinically relevant drivers of breast cancers in intact mammary epithelium is critical for understanding tumorigenesis yet has proven chal- lenging. Here, we show that intra-amniotic lentiviral injection can efficiently transduce progenitor cells of the adult mammary gland and use that as a plat- form to functionally screen over 500 genetic lesions for functional roles in tumor formation. Targeted pro- genitors establish long-term clones of both luminal and myoepithelial lineages in adult animals, and via lineage tracing with stable barcodes, we found that each mouse mammary gland is generated from a defined number of ?120 early progenitor cells that expand uniformly with equal growth potential. We then designed an in vivo screen to test genetic inter- actions in breast cancer and identified candidates that drove not only tumor formation but also molecu- lar subtypes. Thus, this methodology enables rapid and high-throughput cancer driver discovery in mammary epithelium.