CHARACTERIZATION OF A POPULATION OF TUMOUR-INITIATING CELLS WITH STEM-LIKE PROPERTIES IN HUMAN PROSTATE CANCER

Abstract

<p>There is increasing evidence that prostate tumours are organized as a hierarchy with rare cancer stem cells (CSCs) implicated in initiating and maintaining the tumour. However, prospective prostate cancer stem cells (PCSCs) have not been thoroughly characterized from primary tissue specimens. Using the DU145 cell line, PCSCs have been propagated as non-adherent spheres <em>in vitro</em>. Approximately 1.25% of monolayer DU145 cells formed primary spheres while 26% of sphere cells formed subsequent spheres; a measure of PCSC self-renewal capacity. Spheres are enriched for cells expressing prostate basal and luminal cytokeratins and CSC markers (CD44, CD24, integrin alpha2beta1). PCSCs initiate xenograft tumours with enhanced capacity compared to monolayer cells. While epidermal growth factor (EGF) promoted PCSC propagation, basic fibroblast growth factor (bFGF) inhibited these events. Activation of EGF receptor (EGFR) signalling, following EGF treatment or expression of constitutively-active EGFR (EGFRvIII), increased sphere formation. Conversely, attenuation of EGFR signalling inhibited PCSC self-renewal. Consistent with the MEK-ERK pathway being a major target of EGFR signalling, the MEK-ERK pathway contributes to EGFR-facilitated PCSC propagation. Inhibition of ERK activation following MEK inhibitor treatment, expression of dominant-negative MEK1(K97M), or knockdown of ERK1 or ERK2 reduced PCSC propagation. Therefore, EGFR signalling promotes PCSC self-renewal by activating the MEK-ERK pathway.</p> <p>SOX2 is an essential transcription factor for stem cells, however, its role in PCSCs remains unclear. SOX2 protein is upregulated in PCSCs propagated as spheres, and its expression is regulated by EGFR signalling. EGFR activation, following EGF treatment or expression of constitutively-active EGFRvIII, increased SOX2 expression and PCSC self-renewal, while being attenuated by EGFR inhibitor treatment. Ectopic SOX2 expression enhanced EGF-induced PCSC self-renewal, while SOX2 knockdown renders PCSCs non-responsive to EGF-induced self-renewal and reduced their anchorage-independent growth. Furthermore, SOX2 expression is associated with the ability of PCSCs to form aggressive xenograft tumours. Collectively, SOX2 regulates EGFR-mediated PCSC self-renewal.</p>