神经保护
神经炎症
脑出血
微泡
神经毒性
小胶质细胞
医学
冲程(发动机)
炎症
血肿
药理学
结合珠蛋白
外体
败血症
癌症研究
脂质体
血脑屏障
细胞凋亡
细胞因子
从长凳到床边
小RNA
先天免疫系统
下调和上调
止血
免疫学
溶栓
作者
Ke Wang,Jin Li,Meng He,Liping Wang,Xing Guo,Shaobing Zhou
标识
DOI:10.1016/j.bioactmat.2026.01.047
摘要
Intracerebral hemorrhage (ICH) carries high mortality and disability rates, driven not only by the initial bleeding but also by secondary neurotoxicity from blood derived components such as hemoglobin. An effective strategy during the subacute phase must therefore address both hematoma clearance and neuroinflammation. To achieve this dual action therapy, we engineered a novel nanoplatform (M2-exo@HI) by encapsulating a plasmid co-expressing haptoglobin (Hp) and interleukin-10 (IL-10) within M2 macrophage-derived exosomes. Leveraging the innate inflammatory homing of macrophage exosomes, M2 exo@HI delivers the HI plasmid to the ICH site, where it is primarily internalized by M1 microglia. The expressed Hp binds hemoglobin, reducing neurotoxicity and exert neuroprotective effects. Simultaneously, IL-10 polarizes M1 microglia to the neuroprotective M2 phenotype, thereby removing hematoma and alleviating neuroinflammation via anti-inflammatory cytokine production. Consequently, M2-exo@HI significantly reduced hematoma volume, improved long-term neurological function, and enhanced blood-brain barrier (BBB) repair. Transcriptome analysis further elucidated the genetic mechanisms underlying this synergistic effect. This work presents a promising co-delivery strategy for enhancing hemorrhagic stroke therapy.
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