Abstract
Tissue regeneration relies on adult stem cells (SCs) that possess the ability to self-renew and produce differentiating progeny. In an analogous manner, the development of certain carcinomas depends on a small subset of tumor cells, called "tumor-initiating cells" (TICs), with SC-like properties. Mammary SCs (MaSCs) reside in the basal compartment of the mammary epithelium, and their neoplastic counterparts, mammary TICs (MaTICs), are thought to serve as the TICs for the claudin-low subtype of breast cancer. MaSCs and MaTICs both use epithelial-mesenchymal transition (EMT) programs to acquire SC properties, but the mechanism(s) connecting EMT programs to stemness remain unclear. Here we show that this depends on primary cilia, which are nonmotile, cell-surface structures that serve as platforms for receiving cues and enable activation of various signaling pathways. We show that MaSC and MaTIC EMT programs induce primary cilia formation and Hedgehog (Hh) signaling, which has previously been implicated in both MaSC and MaTIC function. Moreover, ablation of these primary cilia is sufficient to repress Hh signaling, the stemness of MaSCs, and the tumor-forming potential of MaTICs. Together, our findings establish primary ciliogenesis and consequent Hh signaling as a key mechanism by which MaSC and MaTIC EMT programs promote stemness and thereby support mammary tissue outgrowth and tumors of basal origin.