Advanced Science (Feb 2023)

Spontaneously Right‐Side‐Out‐Orientated Coupling‐Driven ROS‐Sensitive Nanoparticles on Cell Membrane Inner Leaflet for Efficient Renovation in Vascular Endothelial Injury

  • Xian Qin,
  • Li Zhu,
  • Yuan Zhong,
  • Yi Wang,
  • Guicheng Wu,
  • Juhui Qiu,
  • Guixue Wang,
  • Kai Qu,
  • Kun Zhang,
  • Wei Wu

DOI
https://doi.org/10.1002/advs.202205093
Journal volume & issue
Vol. 10, no. 6
pp. n/a – n/a

Abstract

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Abstract Biomimetic cell membrane camouflaged technology has drawn extensive attention as a feasible and efficient way to realize the biological functions of nanoparticles from the parent cells. As the burgeoning nanotherapeutic, the right‐side‐out orientation self‐assembly and pathological dependent “on‐demand” cargo release of cell membrane camouflaged nanocarriers remarkably limit further development for practical applications. In the present study, a spontaneously right‐side‐out‐orientated coupling‐driven ROS‐sensitive nanotherapeutic has been constructed for target endothelial cells (ECs) repair through the synergistic effects of spontaneously right‐side‐out‐orientated camouflaging. This condition results from the specific affinity between the intracellular domain of key transmembrane receptors band 3 on cell membrane inner leaflet and the corresponding P4.2 peptide‐modified nanoparticles without the additional coextrusion. The “on‐demand” cargo release results from the pathological ROS‐cleavable prodrug. Particularly, the red blood cell camouflaged nanotherapeutics (RBC‐LVTNPs) can enhance target drug delivery through low oscillatory shear stress (LSS) blood flow in the injured ECs lesion. Both in vitro and in vivo results collectively confirm that RBC‐LVTNPs can restore the damaged ECs and function with the recovered vascular permeability and low inflammation microenvironment. The findings provide a powerful and universal approach for developing the biomimetic cell membrane camouflaged nanotechnology.

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