Abstract
Abstract Somatic stem cells govern the development, maintenance and regeneration of tissues, and their dysregulation is associated with diverse pathologies including cancer. Given the significance of these cells both biologically and therapeutically, it is critical to elucidate the signaling mechanisms that dictate their behavior. Our recent work on the fetal mammary gland has dissected complementary roles for the stem cell compartment and stromal cues in fetal mammary stem cell function. We also identified significant similarities between the gene expression profiles of some of the most aggressive and untreatable forms of human breast cancer and those of the mouse fetal stem cell enriched mammary epithelial and stromal fractions. These similarities suggest that stem cell regulatory mechanisms operative during organogenesis, including those specified by the stromal niche, may serve as novel therapeutic targets in these cancers. We also discovered significant gene expression heterogeneity within the fetal stem cell compartment when analyzed at single cell resolution. While such heterogeneity likely reflects the natural diversity of stem and non-stem cell states comprising the system, it confounds the interpretation of expression profiles from mixed populations and the delineation of stem cell specific and niche specific molecular components. Our current objective is to utilize genome wide single cell RNA-Sequencing to hasten the identification of functionally relevant, stem cell specific regulators and markers in the context of this multi-cellular/multi-signal system. Among other candidates, we have identified the Cripto/GRP78 signaling axis as a critical regulator of mammary stem cell activity, and have developed novel molecular genetic tools to temporally control the activity of candidate stem cell regulators in vivo in normal and neoplastic contexts. Integration of these tools promises to deliver a new molecular understanding of stem cell biology in the mammary gland and other systems and of stem cell-like cancer cells. Citation Format: Benjamin T. Spike, Danielle D. Engle, Jennifer C. Lin, Jonathan A. Kelber, Justin La, Samantha K. Cheung, Evan Booker, Rose Rodewald, Christopher Dravis, Peter C. Gray, Geoffrey M. Wahl. Deconstructing stemness from the fetal mammary perspective. [abstract]. In: Proceedings of the AACR Special Conference on Advances in Breast Cancer Research: Genetics, Biology, and Clinical Applications; Oct 3-6, 2013; San Diego, CA. Philadelphia (PA): AACR; Mol Cancer Res 2013;11(10 Suppl):Abstract nr A136.
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