Reversing Immunosenescence with Senolytics to Enhance Tumor Immunotherapy

Recent advancements in cancer immunotherapy have improved patient outcomes, yet responses to immunotherapy remain moderate. We conducted a Phase II clinical trial (NCT04718415) involving 51 cancer patients undergoing neoadjuvant chemoimmunotherapy and applied single-cell RNA and T/BCR sequencing on tumor and blood samples to elucidate the immune cell perturbations. Our findings associate poor response with reduced levels of CCR7+CD4 Naive T cells and CD27+ Memory B cells, as well as higher expression of immunosenescence-related genes in T and B cell subsets. Using naturally aged and Ercc1+/- transgenic aging mouse models, we found that senolytics enhance the therapeutic efficacy of immunotherapy in multiple solid tumors by mitigating tumor immunosenescence. Notably, we launched a Phase II clinical trial, COIS-01 (NCT05724329), which pioneers the combination of senolytics with anti-PD-1 therapy. The clinical results demonstrate that this therapeutic strategy is associated with a favorable safety profile and therapeutic efficacy, significantly mitigating adverse effects and alleviating immunosenescence. These findings underscore the pivotal role of immunosenescence characteristics in influencing the effectiveness of immunotherapy and suggest a promising therapeutic efficacy along with a beneficial safety assessment for the combination of senolytics with anti-PD-1 therapy.