DNA传递系统的超分子组装。

Bruno Pitard
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引用次数: 34

摘要

将基因传递到培养细胞或体内是治疗疾病的一种很有前途的方法。已经开发了几种基因传递系统来促进基因在体外或体内的表达。对病毒诱导的免疫反应的关注,与复制能力强的病毒相关的风险,以及生产问题,刺激了人们对阳离子脂质和聚合物等替代基因传递系统的开发。这些带正电的分子通过静电力与DNA相互作用。这导致形成高度有组织的超分子结构,其中DNA分子被浓缩并防止DNA酶降解。DNA以胶束或脂质体的形式与阳离子脂质结合,形成片层组织,DNA分子夹在脂质双层之间。尽管片层相是常见的描述结构,正如小角度x射线散射和电子显微镜所证明的那样,单价阳离子脂质与六边形形成脂质结合导致DNA呈倒六边形结构。尽管进行了大量的研究,但阳离子载体基因转移的机制仍不明确。因此,需要建立合成DNA传递系统的理化性质与体外和体内转染效率之间的相关性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Supramolecular assemblies of DNA delivery systems.

Gene delivery into cultured cells or in vivo is a promising approach to the treatment of diseases. Several gene delivery systems have been developed to promote gene expression either in vitro or in vivo. Concerns about viral-induced immune responses, the risk associated with replication-competent viruses, and production issues have stimulated efforts toward the development of alternative gene delivery systems such as cationic lipids and polymers. These positively charged molecules interact through electrostatic forces with DNA. This results in the formation of highly organized supramolecular structures where DNA molecules are condensed and protected against DNAses degradation. Association of DNA with cationic lipids under a micellar or liposomal form leads to lamellar organization with DNA molecules sandwiched between lipid bilayers. Although the lamellar phase is the common described structure, as evidenced by small-angle X-ray scattering and electron microscopy, monovalent cationic lipid combined with a hexagonal forming lipid resulted with DNA in an inverted hexagonal structure. Despite a lot of effort, the mechanism of gene transfer with cationic carrier is still ill-defined. Therefore, correlations need to be established between physicochemical properties of synthetic DNA delivery systems and in vitro and in vivo transfection efficiency.

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