Abstract 534: Oncogenes alter mammary epithelial cell lineage identity prior to tumor formation

Abstract

Abstract Background: Breast cancer is a heterogeneous disease encompassing multiple subtypes that differ in their molecular profiles, clinical course of progression, and response to therapeutics. Interestingly, breast cancers fall broadly into luminal and basal subtypes, which resemble the normal luminal and basal epithelial cells of the breast. This correlation suggests that the molecular mechanisms controlling epithelial cell lineage identity during normal mammary development may also influence tumor subtype during cancer formation. Since many breast cancers are driven by oncogenes that are important for normal mammary development, we hypothesize that dysregulated oncogene signaling may alter mammary epithelial cell lineage identity at an early step of cancer initiation, priming the breast tumor subtype that will be formed upon full tumorigenesis. Methods: Human breast cell lines, MCF10a and MCF10f, and primary human breast tissues were infected with virus expressing single breast cancer oncogenes. Flow cytometry and quantitative RT-PCR were performed on breast cell lines to determine changes in the balance of luminal to basal cells and expression of luminal or basal gene sets. Primary tissues were grown in hydrogels and stained for luminal and basal markers to determine the effect of oncogene expression on the growth of mammary ductal structures. Mouse tumor models, MMTV-Myc and MMTV-Wnt1, were investigated for changes in their mammary epithelial architecture by histology and flow cytometry at ages prior to tumor formation. Results: Oncogene overexpression in human breast cell lines causes shifts in basal and luminal cell balance that correlate with changes seen in mammary ductal growth in hydrogel cultures of primary human breast epithelial cells. In mouse models, individual oncogenes alter mammary epithelial architecture and cell balance at early stages prior to tumor formation. In both models, individual oncogenes are able to regulate mammary epithelial cell lineage identity in the absence of other tumor-initiating signals, indicating that oncogenes may influence breast cancer subtype through mammary epithelial cell lineage regulation at early stages of cancer progression. Citation Format: Jerrica Breindel, Felix Nampanya, Aditya Datye, Daniel H. Miller, Piyush Gupta, Charlotte Kuperwasser. Oncogenes alter mammary epithelial cell lineage identity prior to tumor formation [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 534.