101. BTN3A1 governs antitumor responses by coordinating αβ and γδ T cells
- Author
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Michael Ophir, Qianqian Ming, Gunjan Mandal, Evgenii N. Tcyganov, Carmen M. Anadon, Alfredo Perales-Puchalt, Jennifer Walrath, Michael Schmidt, Paulo C. Rodriguez, Ugur Eskiocak, Carly M. Harro, Douglas C. Marchion, Jessica A. Mine, Ricardo A. Chaurio, Juan R. Cubillos-Ruiz, Subir Biswas, Julia Tchou, Kristen E. Rigolizzo, Brooke T. Mclaughlin, Jose R. Conejo-Garcia, Jason Lajoie, Dmitry I. Gabrilovich, Andrea L. Buras, Piotr Bobrowicz, Tara Lee Costich, Vincent C. Luca, and Kyle K. Payne
- Subjects
0301 basic medicine ,Multidisciplinary ,biology ,Effector ,Chemistry ,T cell ,T-Cell Receptor Activation ,Immunological synapse ,03 medical and health sciences ,030104 developmental biology ,0302 clinical medicine ,medicine.anatomical_structure ,Butyrophilin ,Antigen ,030220 oncology & carcinogenesis ,Cancer cell ,Cancer research ,medicine ,biology.protein ,Antibody - Abstract
Gamma delta (γδ) T cells infiltrate most human tumors, but current immunotherapies fail to exploit their in situ major histocompatibility complex-independent tumoricidal potential. Activation of γδ T cells can be elicited by butyrophilin and butyrophilin-like molecules that are structurally similar to the immunosuppressive B7 family members, yet how they regulate and coordinate αβ and γδ T cell responses remains unknown. Here, we report that the butyrophilin BTN3A1 inhibits tumor-reactive αβ T cell receptor activation by preventing segregation of N-glycosylated CD45 from the immune synapse. Notably, CD277-specific antibodies elicit coordinated restoration of αβ T cell effector activity and BTN2A1-dependent γδ lymphocyte cytotoxicity against BTN3A1+ cancer cells, abrogating malignant progression. Targeting BTN3A1 therefore orchestrates cooperative killing of established tumors by αβ and γδ T cells and may present a treatment strategy for tumors resistant to existing immunotherapies.
- Published
- 2020
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