含质粒DNA:聚（L-赖氨酸）复合物的壳聚糖微球的制备及其体外转染效率

Preparation and in vitro transfection efficiency of chitosan microspheres containing plasmid DNA:poly(L-lysine) complexes.

作者信息

Aral Cenk, Akbuga Julide

机构信息

Marmara University, Faculty of Pharmacy, Department of Pharmaceutical Biotechnology, Haydarpasa, Istanbul, Turkey.

出版信息

J Pharm Pharm Sci. 2003 Sep-Dec;6(3):321-6.

PMID:14738712

Abstract

PURPOSE

Studies on DNA complexes with cationic polymers are prompted by the search for nonviral DNA carriers for gene therapy. Among them, poly(L-Lysine) (PLL) has been extensively studied. On the other hand, these systems deliver DNA as a bolus without long-term release. The aims of this study were to encapsulate plasmid DNA:poly(L-lysine) (pDNA:PLL) complexes into chitosan microspheres as an alternative to the PLL based gene delivery and investigate its in vitro release and transfection characteristics as well as plasmid DNA integrity and stability against serum and DNase I challenge.

METHODS

pUC18 plasmid DNA that encoded beta-galactosidase was used as a model. The microspheres were prepared by complex coacervation method and the release and in vitro transfection properties were investigated. pDNA:PLL complexes were prepared at two different mass ratios. In vitro release studies were performed at 37 +/- 0.5 degrees C and drug release was monitored both spectrophotometrically and fluorometrically. Structural integrity of the pDNA:PLL complexes were determined by Southern blotting analysis. Protective effect of encapsulation of pDNA:PLL complexes against DNase I and serum treatment were also studied. In vitro transfection studies were performed by using 3T3 cell line.

RESULTS

According to our in vitro release data, the mass ratio of pDNA:PLL significantly affected the release of pDNA:PLL complexes from chitosan microspheres, and the structure of the plasmid DNA did not change during the experiments. pDNA:PLL-loaded chitosan microspheres indicated high stability against fetal bovine serum and DNase I treatment for a week. In vitro transfection data showed that pDNA:PLL-loaded chitosan microspheres could be effectively transfected 3T3 cells in vitro.

CONCLUSION

As a conclusion, pDNA:PLL complexes could be encapsulated into chitosan microspheres with maintaining their structural and functional integrity and this system may be a good alternative for polycation based gene carriers.

摘要

目的

对DNA与阳离子聚合物复合物的研究是受基因治疗中非病毒DNA载体探索的推动。其中，聚（L-赖氨酸）（PLL）已得到广泛研究。另一方面，这些系统以大剂量形式递送DNA，没有长期释放。本研究的目的是将质粒DNA：聚（L-赖氨酸）（pDNA：PLL）复合物包封到壳聚糖微球中，作为基于PLL的基因递送的替代方法，并研究其体外释放和转染特性，以及质粒DNA在血清和DNase I攻击下的完整性和稳定性。

方法

使用编码β-半乳糖苷酶的pUC18质粒DNA作为模型。通过复凝聚法制备微球，并研究其释放和体外转染特性。以两种不同的质量比制备pDNA：PLL复合物。在37±0.5℃下进行体外释放研究，通过分光光度法和荧光法监测药物释放。通过Southern印迹分析确定pDNA：PLL复合物的结构完整性。还研究了包封pDNA：PLL复合物对DNase I和血清处理的保护作用。使用3T3细胞系进行体外转染研究。

结果

根据我们的体外释放数据，pDNA：PLL的质量比对壳聚糖微球中pDNA：PLL复合物的释放有显著影响，并且在实验过程中质粒DNA的结构没有改变。负载pDNA：PLL的壳聚糖微球在一周内对胎牛血清和DNase I处理显示出高稳定性。体外转染数据表明，负载pDNA：PLL的壳聚糖微球可以在体外有效地转染3T3细胞。

结论

总之，pDNA：PLL复合物可以包封到壳聚糖微球中，同时保持其结构和功能完整性，并且该系统可能是基于聚阳离子的基因载体的良好替代品。

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含质粒DNA:聚（L-赖氨酸）复合物的壳聚糖微球的制备及其体外转染效率

Preparation and in vitro transfection efficiency of chitosan microspheres containing plasmid DNA:poly(L-lysine) complexes.

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机构信息

出版信息

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METHODS

RESULTS

CONCLUSION

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