Targeted DDR1 Treatment Strategy Enhances PD-1 Immunotherapy Efficacy against Gastric Cancer.
Yonggang Tian, Jun Wang, Long Qin, Xiang Wang, Yi Yu, Hui Sun, Feihu Bai, Dekui Zhang
Abstract
Open AccessDespite advances in immunotherapy, many patients with advanced gastric cancer (GC) remain refractory. Discoidin domain receptor 1 (DDR1) was identified as a key mediator of tumor-stroma interactions and immunosuppression. Multiomics analysis associated high DDR1 expression with poor prognosis and an immunosuppressive microenvironment. Genetic DDR1 knockdown inhibited tumor progression, leading to the development of a DDR1-targeting monoclonal antibody (mAb). In murine models, this anti-DDR1 mAb synergized with anti-PD-1 therapy, suppressing tumor growth and improving survival. Mechanistically, the mAb binds the DDR1 DS-DS-like-EJM domain, competitively inhibiting collagen I interaction and blocking the Col1-DDR1-ERK pathway. It exerts dual immune-activating effects by inducing ADCC/CDC and upregulating CCL3/CXCL11 to enhance CD8+ T cell recruitment and cytotoxicity. Thus, DDR1 inhibition presents a multimodal strategy that suppresses tumor signaling and converts immunologically "cold" tumors, supporting its combination with PD-1 blockade as a promising GC treatment.