Targeting stromal remodeling and cancer stem cell plasticity overcomes chemoresistance in triple negative breast cancer
Cazet, Aurelie S.; Hui, Mun N.; Elsworth, Benjamin L.; Wu, Sunny Z.; Roden, Daniel; Chan, Chia-Ling; Skhinas, Joanna N.; Collot, Raphael; Yang, Jessica; Harvey, Kate; Johan, M. Zahied; Cooper, Caroline; Nair, Radhika; Herrmann, David; McFarland, Andrea; Deng, Niantao; Ruiz-Borrego, Manuel; Rojo, Federico; Trigo, Jose M.; Bezares, Susana; Caballero, Rosalia; Lim, Elgene; Timpson, Paul; O'Toole, Sandra; Watkins, D. Neil; Cox, Thomas R.; Samuel, Michael S.; Martin, Miguel; Swarbrick, Alexander
Publicación: NATURE COMMUNICATIONS
2018
VL / 9 - BP / - EP /
abstract
The cellular and molecular basis of stromal cell recruitment, activation and crosstalk in carcinomas is poorly understood, limiting the development of targeted anti-stromal therapies. In mouse models of triple negative breast cancer (TNBC), Hedgehog ligand produced by neoplastic cells reprograms cancer-associated fibroblasts (CAFs) to provide a supportive niche for the acquisition of a chemo-resistant, cancer stem cell (CSC) phenotype via FGF5 expression and production of fibrillar collagen. Stromal treatment of patient-derived xeno-grafts with smoothened inhibitors (SMOi) downregulates CSC markers expression and sensitizes tumors to docetaxel, leading to markedly improved survival and reduced metastatic burden. In the phase I clinical trial EDALINE, 3 of 12 patients with metastatic TNBC derived clinical benefit from combination therapy with the SMOi Sonidegib and docetaxel chemotherapy, with one patient experiencing a complete response. These studies identify Hedgehog signaling to CAFs as a novel mediator of CSC plasticity and an exciting new therapeutic target in TNBC.
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Gold DOAJ, Green published, Green accepted
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