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Chemical engineering of γδ T cells with cancer cell-targeting antibodies for enhanced tumor immunotherapy

Long Chen, Bo Cheng, Zhanqun Yang, Mengzhu Zheng, T W Chu, Pan Wang, Tianhui He, Yuan Xue, He Ren, Liting Zheng, Peng Zhou, Xiaxuan Li, Haichuan Zhu, Hongyan Guo, Xing Chen, Jianhua Lin

2025National Science Review9 citationsDOIOpen Access PDF

Abstract

ABSTRACT Gamma delta (γδ) T cells hold great promise in adoptive cell therapy, but suffer from low tumor-targeting efficiency. Herein, we report the development of antibody-γδ T cell conjugates for enhanced tumor therapy. By evaluating different biomolecules residing on the cell surface, sialic acids—the terminal sugars of various cell-surface glycans—are identified as the optimum site for anchoring antibodies onto γδ T cells via metabolic glycan labeling with unnatural sugars containing a bioorthogonal functional group. A programmed death-ligand 1 (PD-L1)-specific nanobody (αPD-L1) is conjugated onto γδ T cells via click chemistry and the resulting αPD-L1-γδ T cells exhibit enhanced cytotoxicity towards PD-L1-positive cancer cell lines, patient-derived primary cancer cells, and xenografted tumors in living mice. Mechanistically, αPD-L1-γδ T cells target cancer cells and tumors via binding to PD-L1 and induce cancer cell pyroptosis. Furthermore, αPD-L1-γδ T cells remodel the tumor microenvironment to be immune-active, at least partially through the recruitment and activation of CD8+ T cells via the CCR5/CCL5 axis. This work provides a versatile strategy for chemical engineering of γδ T cells for improved therapeutic applications.

Topics & Concepts

Tumor microenvironmentCancer researchCancer immunotherapyCancer cellT cellImmunotherapyChemistryBioorthogonal chemistryAntibodyCytotoxic T cellCytotoxicityImmune systemCancerBiologyBiochemistryClick chemistryImmunologyTumor cellsCombinatorial chemistryIn vitroGeneticsImmune Cell Function and InteractionCAR-T cell therapy researchImmunotherapy and Immune Responses