Abstract
Abstract The normal breast contains epithelial populations which are hierarchically organized, a profile recapitulated in breast cancer. At the apex of these hierarchies are "stem like" cells defined by their capacity to self-renew as well as to generate more differentiated progeny. In breast cancer these "cancer stem cells" (CSCs) have been shown to be important mediators of tumor metastasis and treatment resistance. Although the phenotypes of normal rodent and human mammary stem cells have been characterized, CSC populations are operationally defined by their capacity for tumor initiation. In addition, putative breast CSC markers such as CD44+/CD24low/- and or ALDH+ have proven useful in enriching for cells capable of tumor initiation and previous studies have suggested that these markers identify alternative mesenchymal and epithelial stem cell states, respectively. However, it remains unclear whether CSCs exist in discrete states or whether these cells actually represent a continuum reflected in heterogeneity of cell populations defined by expression of these markers. To address this question we utilized single cell mRNA expression profiling of normal and malignant breast stem cells. We first generated a panel of 96 genes representing stem cell and developmental pathways and analyzed expression of these 96 genes utilizing Fluidigm’s C1 and BioMark HD technologies and TaqMan gene expression assays. We also utilized Fluidigm’s Polaris to selectively isolate single cells that were then analyzed by illumina RNA-Seq method. Utilizing these advanced technologies, we demonstrated that both normal and malignant breast stem cells characterized by CD44+/CD24low/- and or ALDH+ expression are highly heterogeneous. For example, the ALDH isoforms ALDH1A1 and ALDH1A3 were each expressed in some single cells and co-expressed in others. ALDH1A1 expressing single cells appeared to express a unique gene pattern characterized by SLIT/ROBO, PLXNA2, RHOU and HNF1a. These results suggest that at the level of mRNA expression, normal and malignant breast stem cells display a greater heterogeneity than has previously been reported. These results have important implications for breast carcinogenesis as well as for the development of therapeutic strategies designed to target CSCs in breast cancer. Citation Format: Shamileh Fouladdel, Justin Colacino, Ebrahim Azizi, Max S. Wicha. Single cell mRNA expression profiling reveals heterogeneity of normal and malignant breast stem cell populations [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 939. doi:10.1158/1538-7445.AM2017-939
Published Version
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