Preparation and optimization of novel targeted nanobubbles carrying exosomes
10.3760/cma.j.cn131148-20241224-00678
- VernacularTitle:携外泌体的新型靶向纳米泡的制备与优化
- Author:
Ying ZHAO
1
;
Yuming MU
;
Shangke CHEN
;
Lina GUAN
;
Lingjie YANG
Author Information
1. 新疆医科大学第一附属医院心脏超声诊断科,乌鲁木齐 830011
- Publication Type:Journal Article
- Keywords:
Ultrasound nanobubble;
Exosome;
Molecular targeting;
Myocardial infarction
- From:
Chinese Journal of Ultrasonography
2025;34(6):525-532
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To prepare novel targeted lipid nanobubbles(MEB-NBs)that can be loaded with exosomes(Exo),and test the property and explore the specific invitro target-seeking ability of MEB-NBs. Methods:The core lipid nanobubbles(NBs)were prepared using mechanical oscillation methods,and Exo was connected to the NBs through membrane fusion. The target antibody MYH6 was linked to the NBs using a phospholipid coupling covalent method,resulting in the preparation of targeted lipid nanobubbles MEB-NBs loaded with Exo. The morphology,particle size,and surface potential of the prepared lipid nanobubbles MEB-NBs were observed,and the co-loading of Exo and NBs was verified using laser confocal and fluorescence resonance energy transfer techniques. The in vitro imaging capability and biosafety of MEB-NBs were evaluated,and the loading rate and drug content of Exo carried by MEB-NBs were measured. The ability of MEB-NBs to specifically target hiPSC-CMs cells was observed using flow cytometry,small animal in vivo imaging systems,and laser confocal microscopy. Results:The average particle size of the prepared MEB-NBs was(597.10 ± 47.70)nm,the surface potential was(-11.70 ± 0.21)mV,and the concentration was(2.43 ± 0.06)×10 7/ml. Laser confocal microscopy and FRET results confirmed that the Exo was effectively connected with the NBs;When the Exo concentration was 250 μg/ml,the Exo loading rate and drug loading of MEB-NBs were both 73.8%,and the results of laser confocal microscopy showed that MEB-NBs could be effectively targeted to hiPSC-CMs cells. MEB-NBs were well developed in vitro and had good biological safety. Conclusions:This study constructs novel Exo-loaded targeted lipid nanobubbles(MEB-NBs)that demonstrate stable physicochemical properties and ultrasound imaging capabilities. The developed MEB-NBs precisely target hiPSC-CMs cells,providing an innovative drug delivery system with enhanced therapeutic efficacy for Exo-based therapies.
