The immune system can control cancer progression. However, even though some innate immune sensors of cellular stress are expressed intrinsically in epithelial cells, their potential role in cancer aggressiveness and subsequent overall survival in humans is mainly unknown. Here, we show that NLR family CARD Domain Containing 4 (NLRC4) is downregulated in epithelial tumor cells of colorectal cancer (CRC) patients by using spatial tissue imaging. Strikingly, only the loss of tumor NLRC4 but not stromal is associated with poor immune infiltration (mainly dendritic and CD4+/CD8+ T cells) and accurately predicts progression to metastatic Stage IV and decrease of overall survival. By combining multi-omics approaches, we show that restoring NLRC4 expression in human colorectal cancer cells triggers a broad inflammasome-independent immune reprogramming consisting of Type-I IFN signaling genes and the release of chemokines and myeloid growth factors involved in the tumor infiltration and activation of dendritic cells (DCs) and T cells. Consistently, such reprogramming in cancer cells is sufficient to directly mature human DCs towards a Th1 antitumor immune response through IL-12 production in vitro. In multiple human carcinomas (colorectal, lung, and skin), we confirmed that NLRC4 expression in patient tumors is strongly associated with Type-I IFN genes, immune infiltrates and high microsatellite instability. Thus, we shed light on the epithelial innate immune sensor NLRC4 as a novel therapeutic target to promote an efficient antitumor immune response against the aggressiveness of various carcinomas.
Charlotte Domblides, Steven Crampton, Hong Liu, Juliet M. Bartleson, Annie Nguyen, Claudia Champagne, Emily E. Landy, Lindsey Spiker, Christopher Proffitt, Sunil Bhattarai, Anissa P. Grawe, Matias Fuentealba Valenzuela, Lydia Lartigue, Isabelle Mahouche, Jeremy Dupaul-Chicoine, Kazuho Nishimura, Félix Lefort, Marie Decraecker, Valérie Velasco, Sonia Netzer, Vincent Pitard, Christian Roy, Isabelle Soubeyran, Victor Racine, Patrick Blanco, Julie Déchanet-Merville, Maya Saleh, Scott W. Canna, David Furman, Benjamin Faustin
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