Abstract
Cancer stem cells (CSCs) are implicated in tumor initiation, metastasis and drug resistance, and considered as attractive targets for cancer therapy. Here we identified a clinically relevant signaling nexus mediated by AXL receptor, PYK2 and PKCα and show its impact on stemness in TNBC. AXL, PYK2, and PKCα expression correlates with stemness signature in basal-like breast cancer patients, and their depletion in multiple mesenchymal TNBC cell lines markedly reduced the number of mammosphere-forming cells and cells harboring CSCs characteristic markers. Knockdown of PYK2 reduced the levels of AXL, PKCα, FRA1, and PYK2 proteins, and similar trend was obtained upon PKCα depletion. PYK2 depletion decreased AXL transcription through feedback loops mediated by FRA1 and TAZ, whereas PKCα inhibition induced redistribution of AXL to endosomal/lysosomal compartment and enhanced its degradation. PYK2 and PKCα cooperate at a convergence point of multiple stemness-inducing pathways to regulate AXL levels and concomitantly the levels/activation of STAT3, TAZ, FRA1, and SMAD3 as well as the pluripotent transcription factors Nanog and Oct4. Induction of stemness in TNBC sensitized cells to PYK2 and PKCα inhibition suggesting that targeting the AXL-PYK2-PKCα circuit could be an efficient strategy to eliminate CSCs in TNBC.
Highlights
Cancer stem cells (CSCs) represent a small fraction of cancer cells, characterized by specific cellular markers, self-renewal and tumorinitiating capacities [1, 2]
High levels of AXL transcript were observed in mesenchymal stem–like (M/MSL) triple negative breast cancer (TNBC) cell lines of the Cancer Cell Line Encyclopedia (CCLE) (Fig S1A and B)
PKCα, which was shown to be essential for BC stem cells (BCSCs) formation [27], and the characteristic CSCs marker CD44 [4], were enriched in M/MSL cell lines (Fig 1C)
Summary
Cancer stem cells (CSCs) represent a small fraction of cancer cells, characterized by specific cellular markers, self-renewal and tumorinitiating capacities [1, 2]. This subpopulation of cells, known as tumor-initiating cells (TICs), are commonly associated with drugresistance and metastatic potential, and are considered as promising targets for therapeutic intervention. Breast cancer (BC)-initiating cells typically express high levels of CD44, a surface receptor for the extracellular matrix protein Hyaluronan, low levels of CD24, and exhibit high aldehyde dehydrogenase (ALDH) activity [3]. EMT and BC initiating cells display very similar gene signatures and phenotypic properties [9, 10]
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