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Invasive metastatic tumor-camouflaged ROS responsive nanosystem for targeting therapeutic brain injury after cardiac arrest

Yiyang Xia, Chenming Zou, Weichao Kang, Xu Tianhua, Rongjiao Shao, Ping Zeng, Bixi Sun, Jie Chen, Yiming Qi, Zhaozhong Wang, Tiancheng Lin, Haichao Zhu, Yuanyuan Shen, Xintao Wang, Shengrong Guo, Derong Cui

2024Biomaterials14 citationsDOIOpen Access PDF

Abstract

Drug transmission through the blood-brain barrier (BBB) is considered an arduous challenge for brain injury treatment following the return of spontaneous circulation after cardiac arrest (CA-ROSC). Inspired by the propensity of melanoma metastasis to the brain, B16F10 cell membranes are camouflaged on 2-methoxyestradiol (2ME2)-loaded reactive oxygen species (ROS)-triggered "Padlock" nanoparticles that are constructed by phenylboronic acid pinacol esters conjugated D-a-tocopheryl polyethylene glycol succinate (TPGS-PBAP). The biomimetic nanoparticles (BM@TP/2ME2) can be internalized, mainly mediated by the mutual recognition and interaction between CD44v6 expressed on B16F10 cell membranes and hyaluronic acid on cerebral vascular endothelial cells, and they responsively release 2ME2 by the oxidative stress microenvironment. Notably, BM@TP/2ME2 can scavenge excessive ROS to reestablish redox balance, reverse neuroinflammation, and restore autophagic flux in damaged neurons, eventually exerting a remarkable neuroprotective effect after CA-ROSC in vitro and in vivo. This biomimetic drug delivery system is a novel and promising strategy for the treatment of cerebral ischemia-reperfusion injury after CA-ROSC.

Topics & Concepts

PharmacologyHyaluronic acidNeuroprotectionReactive oxygen speciesReperfusion injuryAutophagyIn vivoAcid sphingomyelinaseChemistryCancer researchMedicineIschemiaBiologyMembraneBiochemistryInternal medicineSphingomyelinBiotechnologyApoptosisAnatomyTraumatic Brain Injury and Neurovascular DisturbancesNanoplatforms for cancer theranosticsAnesthesia and Neurotoxicity Research
Invasive metastatic tumor-camouflaged ROS responsive nanosystem for targeting therapeutic brain injury after cardiac arrest | Litcius