癌症免疫疗法
抗原
树突状细胞
嵌合抗原受体
免疫疗法
抗原提呈细胞
离体
过继性细胞移植
T细胞
癌症研究
细胞生物学
肿瘤抗原
黑色素瘤
免疫学
生物
化学
细胞毒性T细胞
抗原呈递
免疫系统
癌症
体内
癌细胞
受体
T淋巴细胞
获得性免疫系统
细胞因子
细胞
T细胞受体
细胞疗法
细胞培养
作者
Yahya Mohammadzadeh,Vojislav Gligorovski,Olga Egorova,Gabriele Casagrande Raffi,Jort J. van der Schans,Ali Ghasemi,Katharina Jonas,Bruno Torchia,Alan Guichard,Rachel Marcone,Amaia Martínez-Usatorre,A Köck,Raphaël Genolet,Nadine Fournier,Tatiana V. Petrova,Daniel E. Speiser,Sahand Jamal Rahi,Nahal Mansouri,Michele De Palma
标识
DOI:10.1126/scitranslmed.adq4060
摘要
Effective antitumor immunity requires dendritic cells (DCs) to internalize, process, and present tumor antigens to T cells. Adoptive transfer of DCs that were loaded ex vivo with tumor antigens has been shown to stimulate antitumor immunity in patients with cancer, but clinical responses have been mixed. To address the limitations of traditional DC-based therapies, we constructed and functionally screened a panel of chimeric antigen receptors (CARs) optimized for expression and activity in DCs. Through this screening, we identified key functional components that guided the development of an inducible platform centered on an instructive chimeric antigen receptor (iCAR). This iCAR enabled DCs to (i) recognize a surface molecule present on cancer cells or their extracellular vesicles (EVs), such as disialoganglioside GD2 (expressed in melanoma and other tumors of neuroectodermal origin) or HER2 (expressed in some epithelial cancers), thereby promoting the acquisition of tumor-derived material containing putative tumor antigens; (ii) undergo immunostimulatory activation to prime antigen-specific T cells via both cross-dressing and cross-presentation; and (iii) transactivate the expression of the therapeutic cytokine interleukin-12 (IL-12) in response to antigen uptake. The iCAR converted melanoma-derived EVs from immune-suppressive to stimulatory cues for DCs in cell culture assays. Moreover, systemic administration of iCAR-DCs enhanced antigen-specific T cells, expanded low-frequency T cell clonotypes, and delayed tumor growth in immunotherapy-resistant melanoma models without the need for ex vivo antigen loading or cell maturation. iCAR-DCs may therefore provide a platform for antigen-agnostic cancer immunotherapy that integrates antigen uptake with programmable DC activation.
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