Targeted gene delivery to the brain using CDX-modified chitosan nanoparticles

被引:6
|
作者
Sepasi, Tina [1 ]
Bani, Farhad [1 ,2 ]
Rahbarghazi, Reza [3 ,4 ]
Ebrahimi-Kalan, Abbas [5 ]
Sadeghi, Mohammad-Reza [6 ]
Alamolhoda, Seyedeh Zahra [7 ]
Zarebkohan, Amir [1 ,2 ]
Ghadiri, Tahereh [5 ]
Gao, Huile [8 ,9 ]
机构
[1] Tabriz Univ Med Sci, Adv Fac Med Sci, Dept Med Nanotechnol, Tabriz, Iran
[2] Tabriz Univ Med Sci, Drug Appl Res Ctr, Tabriz, Iran
[3] Tabriz Univ Med Sci, Stem Cell Res Ctr, Tabriz, Iran
[4] Tabriz Univ Med, Adv Fac Med Sci, Dept Appl Cell Sci, Tabriz, Iran
[5] Tabriz Univ Med Sci, Adv Fac Med Sci, Dept Neurosci & Cognit, Tabriz, Iran
[6] Tabriz Univ Med, Adv Fac Med Sci, Dept Mol Med, Tabriz, Iran
[7] Tabriz Univ Med Sci, Adv Fac Med Sci, Dept Med Biotechnol, Tabriz, Iran
[8] Sichuan Univ, Key Lab DrugTargeting & Drug Delivery Syst, Sichuan Engn Lab Plant Sourced Drug, Educ Minist, Chengdu 610064, Peoples R China
[9] Sichuan Univ, Sichuan Res Ctr Drug Precis Ind Technol, West China Sch Pharm, Chengdu 610064, Peoples R China
来源
BIOIMPACTS | 2023年 / 13卷 / 02期
基金
美国国家科学基金会;
关键词
Targeted gene delivery; Brain; CDX; Chitosan; Nanoparticles; DRUG-DELIVERY; ACETYLCHOLINE-RECEPTORS; ACTIVATION; BARRIER; VECTORS; PEPTIDE; PATHWAY; SYSTEM; CELLS; CROSS;
D O I
10.34172/bi.2022.23876
中图分类号
R9 [药学];
学科分类号
1007 ;
摘要
Introduction: Blood-brain barrier with strictly controlled activity participates in a coordinated transfer of bioactive molecules from the blood to the brain. Among different delivery approaches, gene delivery is touted as a promising strategy for the treatment of several nervous system disorders. The transfer of exogenous genetic elements is limited by the paucity of suitable carriers. As a correlate, designing high-efficiency biocarriers for gene delivery is challenging. This study aimed to deliver pEGFP-N1 plasmid into the brain parenchyma using CDX-modified chitosan (CS) nanoparticles (NPs). Methods: Herein, we attached CDX, a 16 amino acids peptide, to the CS polymer using bifunctional polyethylene glycol (PEG) formulated with sodium tripolyphosphate (TPP), by ionic gelation method. Developed NPs and their nanocomplexes with pEGEP-N1 (CS-PEG-CDX/REGFP) were characterized using DLS, NMR, ETIR, and TIM analyses. For in vitro assays, a rat C6 glioma cell line was used for cell internalization efficiency. The biodistribution and brain localization of nanocomplexes were studied in a mouse model after intraperitoneal injection using in vivo imaging and fluorescent microscopy. Results: Our results showed that CS-PEG-CDX/pEGFP NPs were uptaken by glioma cells in a dose-dependent manner. In vivo imaging revealed successful entry into the brain parenchyma indicated with the expression of green fluorescent protein (GFP) as a reporter protein. However, the biodistribution of developed NPs was also evident in other organs especially the spleen, liver, heart, and kidneys. Conclusion: Based on our results, CS-PEG-CDX NPs can provide a safe and effective nanocarrier for brain gene delivery into the central nervous system (CNS).
引用
收藏
页码:133 / 144
页数:12
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