免疫原性
癌症免疫疗法
抗原呈递
抗原
癌症研究
细胞
免疫疗法
T细胞
免疫系统
化学
细胞生物学
癌细胞
癌症
膜
抗原处理
融合
赫拉
生物
材料科学
抗原提呈细胞
细胞融合
细胞膜
树突状细胞
交叉展示
作者
Lishang Xu,Kan Shao,Yanfei Liu,Yongbo Liu,Yifu Tan,Yunqi Man,Zhirou Zhang,Zhongyu Cheng,Qian Wang,Zhihang Ren,Jiahui Wu,Qi‐Wen Chen,Zhenbao Liu
标识
DOI:10.1002/adhm.202505255
摘要
Antigen-enriched tumor vaccines represent a promising strategy for cancer immunotherapy. Nevertheless, their clinical efficacy is often limited by insufficient antigen presentation and low immunogenicity. Here, a novel nanovaccine was developed that synergistically combines mitochondrial fission inhibition, tumor-dendritic cell fusion, and metal-phenolic nanoparticle technology. Tumor cells were pretreated with the mitochondrial fission inhibitor Mdivi‑1, yielding antigen‑enriched cell membranes (CM(M)). Subsequently, these CM(M) were fused with the dendritic cell membranes (DCM) overexpressing B7 biomolecules to create a tumor-dendritic cell fusion membrane (DCCM(M)). R848-loaded metal-phenolic nanoparticles (TF/R848) were further coated with the fusion membrane to create a dual-functional nanovaccine (TF/R848@DCCM(M)). This nanovaccine increases immunogenicity and optimizes antigen presentation. The nanovaccine promotes dual T-cell activation via direct antigen presentation and DC-mediated cross-presentation. TF/R848@DCCM(M) showed remarkable anticancer activity in melanoma-bearing mouse models, greatly reducing tumor development and extending longevity. Moreover, the nanovaccine enhanced the effects of immune checkpoint inhibitors, offering a promising strategy for combination immunotherapy. This study presents a novel, efficient platform for cancer immunotherapy, positioning a versatile and powerful approach for next-generation tumor vaccines.
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