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A Personalized Cancer Nanovaccine that Enhances T‐Cell Responses and Efficacy Through Dual Interactions with Dendritic Cells and T Cells

Seokhyeong Go, Mungyo Jung, Suyoung Lee, Sangjun Moon, Jihye Hong, Cheesue Kim, Yeonseok Chung, Byung‐Soo Kim

2023Advanced Materials32 citationsDOI

Abstract

Abstract Conventional approaches to developing therapeutic cancer vaccines that primarily activate tumor‐specific T cells via dendritic cells (DCs) often demonstrate limited efficacy due to the suboptimal activation of these T cells. To address this limitation, here a therapeutic cancer nanovaccine is developed that enhances T cell responses by interacting with both DCs and T cells. The nanovaccine is based on a cancer cell membrane nanoparticle (CCM‐MPLA) that utilizes monophosphoryl lipid A (MPLA) as an adjuvant. To allow direct interaction between the nanovaccine and tumor‐specific T cells, anti‐CD28 antibodies (aCD28) are conjugated onto CCM‐MPLA, resulting in CCM–MPLA–aCD28. This nanovaccine activates tumor‐specific CD8 + T cells in both the presence and absence of DCs. Compared with nanovaccines that interact with either DCs (CCM–MPLA) or T cells (CCM–aCD28), CCM–MPLA–aCD28 induces more potent responses of tumor‐specific CD8 + T cells and exhibits a higher antitumor efficacy in tumor‐bearing mice. No differences in T cell activation efficiency and therapeutic efficacy are observed between CCM–MPLA and CCM–aCD28. This approach may lead to the development of effective personalized therapeutic cancer vaccines prepared from autologous cancer cells.

Topics & Concepts

Cancer cellCancer researchCancer immunotherapyCytotoxic T cellT cellAdjuvantCD8CancerBiologyMaterials scienceCell biologyImmunotherapyImmunologyImmune systemIn vitroBiochemistryGeneticsImmunotherapy and Immune ResponsesNanoplatforms for cancer theranosticsCAR-T cell therapy research