Regulation of the PCa Metastatic Phenotype by the HSC Niche
University Of Michigan At Ann Arbor, Ann Arbor MI
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Abstract
Project 2 Project Summary Overview: Prostate cancers (PCa) have an astonishing ability to disseminate, invade and survive in the marrow. Once there, disseminated tumor cells (DTCs) may lie dormant for years. Previously we showed that during metastasis circulating PCa cells target the ?niche? that houses hematopoietic stem cells (HSC). The niche regulates HSC quiescence. Continuing this work, we show that DTCs recovered from the niche are highly enriched in the CD133+/CD44+ population and express genes associated with a ?stem-like? phenotype. The shift in phenotype from CD133- /CD44- to CD133+/CD44+ populations is not seen in cells recovered from other tissues. Further studies show that the HSC niche itself is central to the shift in the DTC phenotype towards a less mature, more cancer stem-like cell?a phenotype which is resistant to chemotherapy. The goal is to more fully understand the biology of the CD133+/CD44+ population. Hypothesis: The acquisition of a cancer stem cell-like state by DTCs once they engage the HSC niche represents a molecular pathway which facilitates dormancy and resistance to therapy. Aim 1: Characterize the biology of CD133+/CD44+ DTC cells isolated from the marrow. We will determine if CD133+/CD44+ isolated from marrow generate (i) spheres in vitro and (ii) generate s.c. tumors in limiting dilution in vivo, (iii) express higher levels of stem cell markers compared to non-niche engaged DTCs, and (iv) using double labeling we will identify which population of DTCs (CD133+/CD44+ or CD133-/CD44-) leads to bone metastases. Aim 2: Elucidate the mechanisms regulating the conversion of CD133-/CD44- into CD133+/CD44+ cells. The change in DTC phenotype upon entering the niche is dependent on growth arrest specific-6. To define the receptors involved shRNA will target each of the three receptor tyrosine kinases (Tyro3, Axl, Mer receptors) that bind to GAS6. (ii) The intracellular signaling pathways activated by GAS6 signaling will be defined to identify mechanisms to block the conversion of CD133-/CD44- into CD133+/CD44+ cells. Aim 3: Identify the extent to which DTCs in humans express CD133, CD44 and GAS6 receptors. We know that 0.5-8% of primary tumor cells express a stem-like phenotype, yet in our models in marrow, 20- 30% of the DTCs express CD133+/CD44+. Based on these data sets, we predict that 20% or more of the DTCs recovered from men will express the stem-like phenotype. To test our hypothesis, 20 sets of paired samples in each of the following patient populations, men pre-prostatectomy (primary, CTCs, DTCs), patients with hormone naive PCa after primary therapy with rising PSA values (DTCs & CTCs), and castrate resistant patients with clinically evident metastatic disease (CTC and DTCs) will be evaluated for the expression of CD133, CD44 and GAS6 receptors.
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