Inhibiting NEDD4 in triple-negative breast cancer cells reprograms tumor immune microenvironment via the β-TrCP/YAP/ECM axis.
Nan Su, Wenhua Lian, Baoding Zhang, Yuan Tian, Linying Li, Yiyu Chen, Xiang Zhi, Taoling Zeng, Qiao Wu, Lanfen Chen, Dawang Zhou, Hong-Rui Wang, Shih-Chin Cheng, Li Li, Xianming Deng
Abstract
Open AccessTumor immune microenvironment greatly influences triple-negative breast cancer (TNBC) progression. Identifying targets to convert "cold" tumors into "hot" tumors holds promise for improving treatment outcomes. Here, we show that high expression of NEDD4, an HECT-type E3 ubiquitin ligase, correlates with poor prognosis and reduced CD8+ T cell infiltration in TNBC patients. NEDD4 depletion in TNBC cells significantly inhibits tumor growth through enhancing CD8+ T cell-mediated cytotoxicity in immunocompetent hosts. Mechanistically, NEDD4 depletion stabilizes β-TrCP, leading to YAP ubiquitination and degradation. Downregulated YAP reprograms the immunosuppressive tumor extracellular matrix (ECM) to increase CD8+ T cell infiltration. Furthermore, a small-molecule inhibitor of NEDD4, XMU-MP-10, exhibits significant in vivo efficacy in inhibiting TNBC tumor growth by enhancing CD8+ T cell infiltration in mouse models. Collectively, our findings suggest that the genetic depletion or pharmacological inhibition of NEDD4 enhances antitumor immune responses via the β-TrCP/YAP/ECM cascades, offering a promising therapeutic strategy for TNBC treatment.