TY - JOUR
T1 - Type I IFNs promote cancer cell stemness by triggering the epigenetic regulator KDM1B
AU - Musella, Martina
AU - Guarracino, Andrea
AU - Manduca, Nicoletta
AU - Galassi, Claudia
AU - Ruggiero, Eliana
AU - Potenza, Alessia
AU - Maccafeo, Ester
AU - Manic, Gwenola
AU - Mattiello, Luca
AU - Soliman Abdel Rehim, Sara
AU - Signore, Michele
AU - Pietrosanto, Marco
AU - Helmer-Citterich, Manuela
AU - Pallocca, Matteo
AU - Fanciulli, Maurizio
AU - Bruno, Tiziana
AU - De Nicola, Francesca
AU - Corleone, Giacomo
AU - Di Benedetto, Anna
AU - Ercolani, Cristiana
AU - Pescarmona, Edoardo
AU - Pizzuti, Laura
AU - Guidi, Francesco
AU - Sperati, Francesca
AU - Vitale, Sara
AU - Macchia, Daniele
AU - Spada, Massimo
AU - Schiavoni, Giovanna
AU - Mattei, Fabrizio
AU - De Ninno, Adele
AU - Businaro, Luca
AU - Lucarini, Valeria
AU - Bracci, Laura
AU - Aricò, Eleonora
AU - Ziccheddu, Giovanna
AU - Facchiano, Francesco
AU - Rossi, Stefania
AU - Sanchez, Massimo
AU - Boe, Alessandra
AU - Biffoni, Mauro
AU - De Maria Marchiano, Ruggero
AU - Vitale, Ilio
AU - Sistigu, Antonella
PY - 2022
Y1 - 2022
N2 - Cancer stem cells (CSCs) are a subpopulation of cancer cells endowed with high tumorigenic, chemoresistant and metastatic potential. Nongenetic mechanisms of acquired resistance are increasingly being discovered, but molecular insights into the evolutionary process of CSCs are limited. Here, we show that type I interferons (IFNs-I) function as molecular hubs of resistance during immunogenic chemotherapy, triggering the epigenetic regulator demethylase 1B (KDM1B) to promote an adaptive, yet reversible, transcriptional rewiring of cancer cells towards stemness and immune escape. Accordingly, KDM1B inhibition prevents the appearance of IFN-I-induced CSCs, both in vitro and in vivo. Notably, IFN-I-induced CSCs are heterogeneous in terms of multidrug resistance, plasticity, invasiveness and immunogenicity. Moreover, in breast cancer (BC) patients receiving anthracycline-based chemotherapy, KDM1B positively correlated with CSC signatures. Our study identifies an IFN-I -> KDM1B axis as a potent engine of cancer cell reprogramming, supporting KDM1B targeting as an attractive adjunctive to immunogenic drugs to prevent CSC expansion and increase the long-term benefit of therapy.Type I interferons have been described to have protumor or antitumor functions depending on context. Here the authors show a protumor function for type I interferons in that they promote cancer stem cells by upregulating the chromatin remodeling factor KDM1B.
AB - Cancer stem cells (CSCs) are a subpopulation of cancer cells endowed with high tumorigenic, chemoresistant and metastatic potential. Nongenetic mechanisms of acquired resistance are increasingly being discovered, but molecular insights into the evolutionary process of CSCs are limited. Here, we show that type I interferons (IFNs-I) function as molecular hubs of resistance during immunogenic chemotherapy, triggering the epigenetic regulator demethylase 1B (KDM1B) to promote an adaptive, yet reversible, transcriptional rewiring of cancer cells towards stemness and immune escape. Accordingly, KDM1B inhibition prevents the appearance of IFN-I-induced CSCs, both in vitro and in vivo. Notably, IFN-I-induced CSCs are heterogeneous in terms of multidrug resistance, plasticity, invasiveness and immunogenicity. Moreover, in breast cancer (BC) patients receiving anthracycline-based chemotherapy, KDM1B positively correlated with CSC signatures. Our study identifies an IFN-I -> KDM1B axis as a potent engine of cancer cell reprogramming, supporting KDM1B targeting as an attractive adjunctive to immunogenic drugs to prevent CSC expansion and increase the long-term benefit of therapy.Type I interferons have been described to have protumor or antitumor functions depending on context. Here the authors show a protumor function for type I interferons in that they promote cancer stem cells by upregulating the chromatin remodeling factor KDM1B.
KW - NA
KW - na
KW - NA
KW - na
UR - http://hdl.handle.net/10807/231537
U2 - 10.1038/s41590-022-01290-3
DO - 10.1038/s41590-022-01290-3
M3 - Article
SN - 1529-2908
VL - 23
SP - 1379
EP - 1392
JO - Nature Immunology
JF - Nature Immunology
ER -