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Versatile Design of NO-Generating Proteolipid Nanovesicles for Alleviating Vascular Injury.

Yueyue YangXiangyun ZhangHongyu YanRongping ZhaoRuixin ZhangLiuyang ZhuJingai ZhangAdam C MidgleyYe WanSongdi WangMeng QianQiang ZhaoDing AiTing WangDeling KongXinglu HuangKai Wang
Published in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2024)
Vascular injury is central to the pathogenesis and progression of cardiovascular diseases, however, fostering alternative strategies to alleviate vascular injury remains a persisting challenge. Given the central role of cell-derived nitric oxide (NO) in modulating the endogenous repair of vascular injury, NO-generating proteolipid nanovesicles (PLV-NO) are designed that recapitulate the cell-mimicking functions for vascular repair and replacement. Specifically, the proteolipid nanovesicles (PLV) are versatilely fabricated using membrane proteins derived from different types of cells, followed by the incorporation of NO-generating nanozymes capable of catalyzing endogenous donors to produce NO. Taking two vascular injury models, two types of PLV-NO are tailored to meet the individual requirements of targeted diseases using platelet membrane proteins and endothelial membrane proteins, respectively. The platelet-based PLV-NO (pPLV-NO) demonstrates its efficacy in targeted repair of a vascular endothelium injury model through systemic delivery. On the other hand, the endothelial cell (EC)-based PLV-NO (ePLV-NO) exhibits suppression of thrombosis when modified onto a locally transplanted small-diameter vascular graft (SDVG). The versatile design of PLV-NO may enable a promising therapeutic option for various vascular injury-evoked cardiovascular diseases.
Keyphrases
  • nitric oxide
  • cardiovascular disease
  • endothelial cells
  • signaling pathway
  • cell death
  • hydrogen peroxide
  • bone marrow
  • cell therapy
  • smoking cessation
  • cell cycle arrest