Catalytic immunotherapy-photothermal therapy combination for melanoma by ferroptosis-activating vaccine based on artificial nanoenzyme

Abstract

Tumor cell vaccine is a promising approach for cancer therapy to activate tumor immune, which can be achieved by tumor cells immunogenic cell death (ICD), converting in situ tumors into endogenous vaccination strategy, and ferroptosis has been proved to induce ICD occurrence. Ferroptosis is triggered by artificial nanoenzyme copper telluride mimicking peroxidase and glutathione oxidase, based on which the ferroptosis-activating vaccine (termed as CM CTNPs@OVA) was designed and established for catalytic immunotherapy. Owing to photothermal effect of copper telluride, photothermal therapy (PTT) was combined for an intensive cancer therapeutic effect. CM CTNPs@OVA was composed of solid mesoporous copper telluride nanoparticles, ovalbumin (OVA) loaded in mesoporous, and melanoma cell membrane coating surface. In in vitro and in vivo investigations, CM CTNPs@OVA, with particle size of 113.7 ± 1.7 nm, was certified to release copper ions for ferroptosis initiation, and OVA directly maturated dendritic cell (DC) as exogenous antigens extracellularly. ICD was then induced by ferroptosis pathway and PTT to release damage-associated molecular patterns for DC maturation and subsequent T cells recruitment. CM CTNPs@OVA-treated melanoma with exited inhibition rate, proving that the strategy of catalytic immunotherapy-PTT combination by ferroptosis-activating vaccine possessed massive potential for melanoma therapy based on nanoenzyme copper telluride.