Activated T cell extracellular vesicle DNA transfer enhances antigen presentation and anti-tumor immunity

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Authors: Hu, Mengying ; Liu, Di-Ao ; Wortzel, Inbal ; Collier, Paul ; Nelson, Theodore M. ; Foox, Jonathan ; Zhong, Guojie ; Tobias, Gabriel ; Asao, Tetsuhiko ; Bojmar, Linda ; Kenific, Candia M. ; Wang, Gang ; Caielli, Simone ; Wan, Zurong ; Qureshy, Sarah ; Reed, Max ; Piszczatowski, Richard ; Ravisankar, Purnima ; Brown, Julia A. ; Xiong, Sihan ; Wang, Huajuan ; Lauritzen, Pernille ; Aylon, Yael ; Molina, Henrik ; Jarnagin, William R. ; Oren, Moshe ; Stanger, Ben Z. ; Bui, Jack ; Bergers, Gabriele ; Noel, Agnes ; Grandgenett, Paul M. ; Hollingsworth, Michael A. ; Tuveson, David ; Boudreau, Nancy ; Bromberg, Jacqueline ; Kelsen, David ; Jones, David R. ; Santambrogio, Laura ; Zeng, Melody Y. ; Pascual, Virginia ; Kim, Han Sang ; Mason, Christopher E. ; Zhang, Haiying ; Matei, Irina R. ; Lyden, David

MeSH: Animals ; Antigen Presentation* / immunology ; Cell Line, Tumor ; DNA* / genetics ; DNA* / immunology ; DNA* / metabolism ; Extracellular Vesicles* / genetics ; Extracellular Vesicles* / immunology ; Extracellular Vesicles* / metabolism ; Granzymes / metabolism ; Humans ; Immunotherapy / methods ; Lymphocyte Activation* / immunology ; Mice ; Mice, Inbred C57BL ; Neoplasms* / genetics ; Neoplasms* / immunology ; Neoplasms* / therapy ; T-Lymphocytes* / immunology ; T-Lymphocytes* / metabolism

Keywords: acellular immunotherapy ; activated T cell-derived EVs ; antigen presentation ; EV<sub>DNA</sub> ; gene transfer

Abstract: Antigen processing and presentation (APP) is essential for adaptive immunosurveillance. We uncover a mechanism whereby activated T cell-derived extracellular vesicles (ATEVs) drive a positive feedback loop that enhances antigen presentation and immune responses in normal physiology and cancer. ATEV-induced immunogenicity relies on extracellular vesicular double-stranded DNA (EVDNA), which is notably abundant and primarily composed of genomic DNA enriched in immune-related genes, including those encoding APP machinery. Mechanistically, granzyme B (Gzmb) packaged by ATEVs disrupts the nuclear envelope of recipient cells, facilitating intranuclear transfer and subsequent transient expression of EVDNA encoding APP genes. DNase treatment removes most AT-EVDNA, abrogating APP upregulation and thus T cell activation and recruitment to tumors. Notably, ATEVs hold promise as an acellular immunotherapy, restoring APP and synergizing with checkpoint blockade in immunotherapy-refractory tumors. Collectively, our findings uncover a mechanism of transient, non-viral gene delivery by ATEVs that boosts APP and anti-tumor immunity while limiting autoimmunity.

Full Text: https://www.sciencedirect.com/science/article/pii/S1535610826001777

Appears in Collections:: 1. College of Medicine (의과대학) > Dept. of Internal Medicine (내과학교실) > 1. Journal Papers

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