Amplifying glioblastoma immunotherapy: T cell shielding through Nitric oxide/reactive oxygen species scavenging nanoparticles Potentiates anti-PD-1.

Despite the success of immune checkpoint blockade (ICB) therapy in various cancers, its efficacy faces challenges in glioblastoma (GBM) due to the immunosuppressive cold-tumor microenvironment. The scarcity of tumor-infiltrating T cells and the suppression of T cell activity significantly limit therapeutic outcomes in GBM. Nitric oxide (NO) and reactive oxygen species (ROS) from tumor-associated myeloid cells (TAMCs) are key contributors to T cell suppression, reducing ICB therapy effectiveness. In this study, we developed NO-ROS scavenging micelles that effectively scavenge both NO and ROS, protecting T cells from their exhausting effects. This leads to a significant increase in T cell infiltration and activation. Moreover, when combined with αPD-1, the survival rate increases to 40 % up to 120 days, enhancing therapeutic efficacy compared to αPD-1 alone. This approach not only protects T cells from the inhibitory effects of NO and ROS but also has the potential to reshape the tumor microenvironment, overcoming T cell suppression in cold tumors.