Abstract LT08: Extracellular Vesicle Surface Display Enhances the Therapeutic Efficacy and Safety Profile of Cancer Immunotherapy

Abstract

Abstract As our understanding of the complex interactions between the immune system and cancer has progressed, so has the identification of novel targets and ligands that can modulate effective anti-cancer immune responses. While immunotherapy has emerged as a mainstay in cancer therapy, its efficacy has been limited by the potential for off-target toxicity against normal body cells. In this study, we present a nanoparticle-based delivery system that enhances the signaling efficacy of immunomodulatory ligands while concurrently limiting systemic toxicity. We demonstrate that extracellular vesicles (EVs), lipid bilayer enclosed nanoparticles released by cells, can be efficiently engineered to display multiple immunomodulatory ligands on their surface. Display of immunomodulatory ligands such as agonistic CD137 and CD40 antibodies on the EV surface significantly enhanced their therapeutic efficacy over equivalent doses of free ligands by inducing ligand multimerization, efficient receptor crosslinking and the formation of immune synapses. EVs conjugated with a complementary combination of immune stimulatory ligands and immune checkpoint inhibitors were able to shift the tumor immune milieu towards an anti-tumorigenic phenotype in a lung metastatic melanoma allograft and suppress tumor progression to a greater extent than an equivalent dose of free ligands. We also demonstrate the ability of EVs to co-deliver intraluminally loaded TLR agonists which synergize with surface displayed agonistic CD40 antibodies to induce effective anti-tumor responses and tumor regression in a metastatic autochthonous cell-derived model of PDAC. Remarkably, we also observed that EV-associated immunotherapeutics were limited in their biodistribution to the tumor microenvironment, resulting in significantly lower off-target toxicity than treatment with free ligands. In summary, we present an EV-based delivery approach that allows the use of potent cancer immunotherapy combinations to achieve superior anti-tumor responses at significantly lower doses with less side-effects than is possible with conventional administration methods for cancer immunotherapy. Citation Format: Migara Kavishka Jayasinghe, Dawn Liu Xiao Tian, Yock Sin Lay, Chang Yu Lee, Brendon Zhi Jie Yeo, Dong Van Hoang, Rebecca Carissa Prajogo, Boya Peng, Thach Tuan Pham, Minh Thi Nguyet Le. Extracellular Vesicle Surface Display Enhances the Therapeutic Efficacy and Safety Profile of Cancer Immunotherapy [abstract]. In: Proceedings of Frontiers in Cancer Science; 2023 Nov 6-8; Singapore. Philadelphia (PA): AACR; Cancer Res 2024;84(8_Suppl):Abstract nr LT08.