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ROS-responsive biomimetic nanosystem camouflaged by hybrid membranes of platelet-exosomes engineered with neuronal targeting peptide for TBI therapy.

Authors :
Li, Yi
Xin, Xin
Zhou, Xun
Liu, Jingzhou
Liu, Hangbing
Yuan, Shuo
Liu, Hanhan
Hao, Wenyan
Sun, Jiejie
Wang, Yuli
Gong, Wei
Yang, Meiyan
Li, Zhiping
Han, Yang
Gao, Chunsheng
Yang, Yang
Source :
Journal of Controlled Release. Aug2024, Vol. 372, p531-550. 20p.
Publication Year :
2024

Abstract

Recovery and survival following traumatic brain injury (TBI) depends on optimal amelioration of secondary injuries at lesion site. Delivering mitochondria-protecting drugs to neurons may revive damaged neurons at sites secondarily traumatized by TBI. Pioglitazone (PGZ) is a promising candidate for TBI treatment, limited by its low brain accumulation and poor targetability to neurons. Herein, we report a ROS-responsive nanosystem, camouflaged by hybrid membranes of platelets and engineered extracellular vesicles (EVs) (C3-EPm-|TKNPs|), that can be used for targeted delivery of PGZ for TBI therapy. Inspired by intrinsic ability of macrophages for inflammatory chemotaxis, engineered M2-like macrophage-derived EVs were constructed by fusing C3 peptide to EVs membrane integrator protein, Lamp2b, to confer them with ability to target neurons in inflamed lesions. Platelets provided hybridized EPm with capabilities to target hemorrhagic area caused by trauma via surface proteins. Consequently, C3-EPm-|PGZ-TKNPs| were orientedly delivered to neurons located in the traumatized hemisphere after intravenous administration, and triggered the release of PGZ from TKNPs via oxidative stress. The current work demonstrate that C3-EPm-|TKNPs| can effectively deliver PGZ to alleviate mitochondrial damage via mitoNEET for neuroprotection, further reversing behavioral deficits in TBI mice. Our findings provide proof-of-concept evidence of C3-EPm-|TKNPs|-derived nanodrugs as potential clinical approaches against neuroinflammation-related intracranial diseases. [Display omitted] • C3-EPm-|TKNPs| integrates advantages of genetically engineered biomaterials based on pathophysiological properties of TBI. • The fused membranes (EPm) equip the nanocarrier with natural tendency tohemorrhagic and inflamed area of traumatic brain. • Gene-engineered C3 expression combines EPm, greatly improving the selective targeting to neurons in traumatic area. • The ROS responsive biomimetic nanosystem improves the curative effect of pioglitazone on symptoms of TBI mice with biosafety. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
01683659
Volume :
372
Database :
Academic Search Index
Journal :
Journal of Controlled Release
Publication Type :
Academic Journal
Accession number :
178596369
Full Text :
https://doi.org/10.1016/j.jconrel.2024.06.018