<p>Inflammatory bowel disease (IBD) is characterized by chronic inflammation and impaired immune tolerance, for which current therapies provide only partial and transient relief. Here, we introduce PrEXO-a23, a biomimetic nanotherapeutic engineered by fusing regulatory T cell (Treg)-derived exosomes with platelet membrane vesicles and conjugating interleukin-23 (IL-23) antibodies via a matrix metalloproteinase (MMP)-cleavable linker. This design exploits the inherent homing ability of platelets and Tregs, enabling PrEXO-a23 to preferentially accumulate in inflamed colonic tissues in murine IBD models. At the disease site, elevated MMP activity triggers antibody release to inhibit IL-23-mediated inflammation, while exosomal cargo reprograms dendritic cells and promotes Treg expansion, thereby restoring immune tolerance. This dual-action strategy significantly alleviates IBD, prevents complications like intestinal fibrosis and colitis-associated colorectal cancer, and shows p53-dependent efficacy in carcinogenesis prevention. These findings highlight PrEXO-a23 as a promising nanotherapeutic platform for durable immune reprogramming and long-term IBD management.</p>

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Engineered exosome nanovesicles for delivery of antibodies to treat inflammatory bowel disease

  • Jiahui Cao,
  • Ran Luo,
  • Rourou Miao,
  • Wen Li,
  • Baisong Zhu,
  • Liu Yu,
  • Yiqiu Fu,
  • Xinyi Wang,
  • Jinxie Zhang,
  • Wenfeng Zeng,
  • Hanjie Zhang,
  • Zhuo Mao,
  • Fan Zhang,
  • Yao-Xin Lin,
  • Meitong Ou,
  • Lin Mei

摘要

Inflammatory bowel disease (IBD) is characterized by chronic inflammation and impaired immune tolerance, for which current therapies provide only partial and transient relief. Here, we introduce PrEXO-a23, a biomimetic nanotherapeutic engineered by fusing regulatory T cell (Treg)-derived exosomes with platelet membrane vesicles and conjugating interleukin-23 (IL-23) antibodies via a matrix metalloproteinase (MMP)-cleavable linker. This design exploits the inherent homing ability of platelets and Tregs, enabling PrEXO-a23 to preferentially accumulate in inflamed colonic tissues in murine IBD models. At the disease site, elevated MMP activity triggers antibody release to inhibit IL-23-mediated inflammation, while exosomal cargo reprograms dendritic cells and promotes Treg expansion, thereby restoring immune tolerance. This dual-action strategy significantly alleviates IBD, prevents complications like intestinal fibrosis and colitis-associated colorectal cancer, and shows p53-dependent efficacy in carcinogenesis prevention. These findings highlight PrEXO-a23 as a promising nanotherapeutic platform for durable immune reprogramming and long-term IBD management.