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Exosomes derived from Vδ2-T cells control Epstein-Barr virus–associated tumors and induce T cell antitumor immunity

Xiwei Wang, Zheng Xiang, Yinping Liu, Chunyu Huang, Yujun Pei, Xia Wang, Hui Zhi, Wilfred Hing Sang Wong, Haiming Wei, Irene Oi‐Lin Ng, Pamela Lee, Gcf Chan, YL Lau, Wenwei Tu

2020Science Translational Medicine105 citationsDOI

Abstract

and humanized mice. Because expanding Vδ2-T cells and preparing autologous Vδ2-T-Exos from cancer patients ex vivo in large scale is challenging, we explored the antitumor activity of allogeneic Vδ2-T-Exos in humanized mouse cancer models. Here, we found that allogeneic Vδ2-T-Exos had more effective antitumor activity than autologous Vδ2-T-Exos in humanized mice; the allogeneic Vδ2-T-Exos increased the infiltration of T cells into tumor tissues and induced more robust CD4 and CD8 T cell-mediated antitumor immunity. Compared with exosomes derived from NK cells (NK-Exos) with direct cytotoxic antitumor activity or dendritic cells (DC-Exos) that induced T cell antitumor responses, Vδ2-T-Exos directly killed tumor cells and induced T cell-mediated antitumor response, thus resulting in more effective control of EBV-associated tumors. This study provided proof of concept for the strategy of using Vδ2-T-Exos, especially allogeneic Vδ2-T-Exos, to treat EBV-associated tumors.

Topics & Concepts

MicrovesiclesImmune systemImmunityVirusImmunologyCell mediated immunityCancer researchMedicineEpstein–Barr virusCellular immunityBiologyVirologymicroRNAGeneBiochemistryExtracellular vesicles in diseaseImmune Cell Function and InteractionViral-associated cancers and disorders