设计并制备具有二硒键连接的双重氧化还原响应性纳米粒子，通过光动力作用有效增强基因表达。

Design and Fabrication of Dual Redox Responsive Nanoparticles with Diselenide Linkage Combined Photodynamically to Effectively Enhance Gene Expression.

机构信息

Wuya College of Innovation, Shenyang Pharmaceutical University, Shenyang 110016, People's Republic of China.

Department of Pharmaceutics, School of Pharmaceutical Science, Shenyang Pharmaceutical University, Shenyang 117004, People's Republic of China.

出版信息

Int J Nanomedicine. 2020 Oct 1;15:7297-7314. doi: 10.2147/IJN.S266514. eCollection 2020.

DOI:10.2147/IJN.S266514

PMID:33061382

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7534861/

Abstract

BACKGROUND

PEI is currently the most used non-viral gene carrier and the transfection efficiency is closely related to the molecular weight; however, the prominent problem is that the cytotoxicity increased with the molecular weight.

METHODS

A novel redox responsive biodegradable diselenide cross-linked polymer (dPSP) was designed to enhance gene expression. ICG-pEGFP-TRAIL/dPSP nanoparticles with high drug loading are prepared, which have redox sensitivity and plasmid protection. The transfection efficiency of dPSP nanoparticle was evaluated in vitro.

RESULTS

The plasmid was compressed by 100% at the N/P ratio of 16, and the particle size was less than 100 nm. When explored onto high concentrations of GSH/HO, dPSP4 degraded into small molecular weight cationic substances with low cytotoxicity rapidly. Singlet oxygen (O) was produced when indocyanine green (ICG) was irradiated by near-infrared laser irradiation (NIR) to promote oxidative degradation of dPSP4 nanoparticles. Under the stimulation of NIR 808 and redox agent, the particle size and PDI of ICG-pDNA/dPSP nanoparticle increased significantly.

CONCLUSION

Compared with gene therapy alone, co-transportation of dPSP4 nanoparticle with ICG and pEGFP-TRAIL had better antitumor effect. Diselenide-crosslinked polyspermine had a promising prospect on gene delivery and preparation of multifunctional anti-tumor carrier.

摘要

背景

PEI 是目前应用最广泛的非病毒基因载体，转染效率与分子量密切相关；但存在的突出问题是，随着分子量的增加细胞毒性也随之增加。

方法

设计了一种新型的氧化还原响应性可生物降解二硒键交联聚合物（dPSP）来增强基因表达。制备了载药率高的 ICG-pEGFP-TRAIL/dPSP 纳米粒，具有氧化还原敏感性和质粒保护作用。体外评估 dPSP 纳米粒的转染效率。

结果

当 N/P 比为 16 时，质粒被压缩 100%，粒径小于 100nm。当在高浓度 GSH/HO 下探索时，dPSP4 迅速降解成具有低细胞毒性的低分子量阳离子物质。当近红外激光照射（NIR）照射时，吲哚菁绿（ICG）产生单线态氧（O），促进 dPSP4 纳米颗粒的氧化降解。在 NIR808 和还原剂的刺激下，ICG-pDNA/dPSP 纳米粒的粒径和 PDI 显著增加。

结论

与单独的基因治疗相比，dPSP4 纳米粒与 ICG 和 pEGFP-TRAIL 的共转运具有更好的抗肿瘤效果。二硒键交联多聚精氨酸有望成为基因传递和多功能抗肿瘤载体的制备方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/79c5/7534861/df811efff51f/IJN-15-7297-g0001.jpg

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设计并制备具有二硒键连接的双重氧化还原响应性纳米粒子，通过光动力作用有效增强基因表达。

Design and Fabrication of Dual Redox Responsive Nanoparticles with Diselenide Linkage Combined Photodynamically to Effectively Enhance Gene Expression.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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