This study describes a tumor-specific expression strategy to promote the secretion of CXCL9 and an anti-PD-L1 scFv (alpha PD-L1) in the tumor microenvironment, enhancing T cell recruitment and anti-tumor immune response.
PD-1/PD-L1 blockade therapy that eliminates T-cell inhibition signals is successful, but poor benefits are often observed. Increasing T-cell infiltration and quantity of PD-1/PD-L1 inhibitors in tumor can improve efficacy but remains challenging. Here, we devise tumor-specific gene nanomedicines to mobilize tumor cells to secrete CXCL9 (T-cell chemokine) and anti-PD-L1 scFv (alpha PD-L1, PD-L1 blocking agent) for enhanced immunotherapy. The tyrosinase promoter-driven NPTyr-C9AP can specifically co-express CXCL9 and alpha PD-L1 in melanoma cells, thereby forming a CXCL9 gradient for T-cell recruitment and high intratumoral alpha PD-L1 concentration for enhancing T-cell activation. As a result, NPTyr-C9AP shows strong antimelanoma effects. Moreover, specific co-expression of CXCL9 and alpha PD-L1 in various tumor cells is achieved by replacing the tyrosinase promoter of NPTyr-C9AP with a survivin promoter, which increases T-cell infiltration and activation and therapeutic efficacy in multiple tumors in female mice. This study provides a strategy to maximize the immunotherapeutic outcome regardless of the heterogeneous tumor microenvironment. Intratumoral abundance of chemokines, such as CXCL9, is an important driver of T cell infiltration in tumors. Here the authors describe the design of a tumor-specific expression strategy to drive secretion of CXCL9 and an anti-PD-L1 scFv (alpha PD-L1) in the tumor microenvironment, promoting T cell recruitment and anti-tumor immune response in preclinical cancer models.
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