溶栓
材料科学
血栓形成
血小板活化
血栓
生物物理学
氧化应激
内皮
纤维蛋白
细胞生物学
血小板
炎症
光热治疗
化学
过氧化氢
膜
内皮功能障碍
组织纤溶酶原激活剂
癌症研究
过氧化氢酶
生物医学工程
纤溶酶原激活剂
纤溶
作者
Yuping Jiang,Yufeng Li,Kexuan Wang,Xiaomin Feng,Weiqing Zhao,Chensong Huang,Jianfeng Zhou,Zhilu Yang,Chuanbin Shen,Lu Han
标识
DOI:10.1002/adma.202511733
摘要
Abstract The pathological interplay of oxidative stress, inflammation, and thrombosis driven by endothelial injury creates a self‐perpetuating cycle that undermines conventional thrombolytic therapies. Herein, near‐infrared (NIR)‐responsive nanomotors are constructed by integrating thylakoid and platelet membranes on strontium‐doped mesoporous polydopamine nanoparticles (PSr@PT NPs), which enables synchronized thrombus dissolution and vascular microenvironment restoration. Following intravenous administration, PSr@PT nanomotors exhibited preferential accumulation within thrombi and were internalized by injured endothelial cells. Meanwhile, thylakoid‐embedded catalase catalyzed endogenous hydrogen peroxide to oxygen, which can not only suppress oxidative damage and neutralize to disrupt platelet‐endothelium interactions, but also generate self‐propulsive forces via gas propulsion, facilitating deep intrathrombus penetration of PSr@PT NPs. Proteomic analysis revealed that PSr@PT NPs inhibited thrombosis progression by downregulating platelet activation and modulating JAK‐STAT/PI3K‐Akt signaling pathways, thereby reducing inflammation and fostering angiogenesis. Local NIR irradiation induced mild photothermal conversion of PSr@PT NPs, which softened fibrin networks, enhanced intrathrombus infiltration, and accelerated localized thrombolysis. In both FeCl 3 ‐induced murine carotid thrombosis and arachidonic acid‐induced zebrafish thrombosis models, the PSr@PT NPs effectively resolved occlusions and restored endothelial function. By coupling ROS‐powered propulsion with adaptive microenvironment remodeling, this nanomotor transcends conventional 1D clot lysis, offering a dynamic strategy to prevent thrombosis recurrence and accelerate functional vascular recovery.
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