粒体自噬
细胞生物学
血管生成
线粒体
再生医学
化学
重编程
生物能学
氧化应激
移植
线粒体ROS
活性氧
MFN2型
缺血
生物
功能(生物学)
超氧化物歧化酶
干细胞
微泡
新生血管
内皮功能障碍
线粒体融合
癌症研究
细胞外
细胞外小泡
体内
体外
治疗性血管生成
作者
Yuanzheng Zhu,Min-Chen Zhang,Xueer Li,Xing-Hong Zeng,Xue-ting Gong,Yuzi Wu,Ze‐Jun Dong,Shu Wu,Xuefei Liu,Abdul Haseeb Khan,Yang-Yan Yi
标识
DOI:10.1186/s12951-026-04183-x
摘要
Ischaemic vascular diseases are critically linked to mitochondrial dysfunction in endothelial cells, which impairs angiogenesis and tissue repair. Although mitochondrial transplantation has emerged as a promising regenerative strategy, its clinical translation remains limited by inefficient delivery and poor retention in target tissues. Here, we demonstrate that mitochondrial-enriched extracellular vesicles derived from adipose-derived stem cells (ADSC-mitoEVs) function as an efficient cell-free nanotherapeutic that restores angiogenic function both in vitro and in a murine model of diabetic hindlimb ischaemia. Mechanistically, ADSC-mitoEV uptake triggers PINK1/Parkin-mediated mitophagy in recipient endothelial cells, a process essential for initiating angiogenesis. Moreover, ADSC-mitoEVs also directly deliver functional mitochondrial proteins, including superoxide dismutase 2 (SOD2), into the endogenous mitochondrial network, which enhances antioxidant activity and improves bioenergetic capacity independently of mitophagy, as demonstrated by reduced reactive oxygen species and elevated ATP production even in PINK1-silenced cells. Our findings establish ADSC-mitoEVs as a versatile cell-free nanotherapeutic that promotes mitochondrial quality control and metabolic reprogramming, offering a potent therapeutic avenue for ischaemic vascular diseases.
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