A senescent tumor cell-derived nanovesicle directly primes splenic T cells to potentiate cancer radiotherapy
Jiaxing Pan, Shun Zhang, Yuchentian Xu, Zhuoliang Li, Meiqin Luo, Zirui Peng, Aojia Jin, Bo Hou, Xiji Qin, Xingang Cui, Bruno G. De Geest, Yuanwen Chen, Zhiai Xu, Haijun Yu, Yi Lai
Journal:Cell Reports Medicine
IF:14
DOI:10.1016/j.xcrm.2026.102709
PMID:41916293
Published:2026-03-30
research field:肿瘤学肿瘤免疫学免疫治疗纳米医学放射生物学
Abstract
Radiotherapy (RT)-induced senescent tumor cells (STCs) reinforce an immunosuppressive tumor microenvironment (ITM) and compromise therapeutic outcomes. However, current senolytic strategies lack specificity for STCs and often cause off-target toxicity. Here, we observe that STCs possess enhanced antigen-presenting capacity in patient-derived tumor tissues and murine tumor models. Leveraging this phenomenon, we engineer STC-derived nanovesicles (termed nano-APM) for preserving endogenous antigens and antigen-presenting cues. We demonstrate that systemically administered nano-APMs accumulate in the spleen and establish a pool of STC-specific CD8 + T cells. Sequential integration of RT induces local tumor senescence, and nano-APMs then effectively mobilize the STC-specific T cells to stimulate a confined recall response. In murine tumor models, the combination of nano-APM plus RT selectively eliminates STCs, reprograms RT-induced ITM, and elicits durable antitumor immunity. Collectively, this study establishes STC-derived nanovesicles as a practical means to enhance RT efficacy by enabling splenic T cell priming and spatiotemporally confined senolysis.
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