化学
端粒
佐剂
细胞生物学
抗原
癌症研究
免疫学
衰老
卵清蛋白
抗原呈递
抑制器
癌症
过继性细胞移植
交叉展示
癌症免疫疗法
树突状细胞
调解人
免疫记忆
黑色素瘤
癌细胞
免疫系统
dna疫苗
获得性免疫系统
癌症疫苗
免疫检查点
作者
Xiuping Cao,Tao Zeng,Shiyan Bai,Shiqing Li,Yana Liu,Liyang Fang,Xiao Fang,Qi Chen,Chunhua Lu,Yang Hh
摘要
Replicative senescence in immune cells undermines vaccine efficacy, with telomere attrition recognized as a key factor to cellular senescence. Studies have shown that the extracellular vesicles (EVs) of bone marrow-derived dendritic cells (BMDCs), which contain the telomeric compounds, can promote telomerase-independent T-cell telomere extension via telomere transfer. Based on this mechanism, we designed a long-term memory T-cell vaccine (LMT/OT-II), which is composed of EVs from BMDCs carrying the ovalbumin peptide OT-II. This vaccine not only enhances antigen presentation but also extends T-cell telomere length, enhancing T-cell vitality and restoring youthful characteristics. To further enhance the antitumor effects, we incorporated the immune adjuvant Poly(I:C) to activate T cells. In both young and aged mouse models, the LMT/OT-II + Poly(I:C) effectively suppressed the growth of B16-OVA melanoma and significantly prolonged the survival of the mouse models. We further developed the LMT/Adpgk + Poly(I:C) vaccine based on mouse colon cancer cell (MC38) neoantigen peptide, which also showed promising results in mice. Through telomere transfer to restore T-cell function and enhance immune memory, our study provides a novel and universal strategy for developing more effective and durable T-cell vaccines, particularly for diseases associated with immunosenescence.
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