Thomas Mini, Lu James J, Zhang Chengcheng, Chen Jianzhu, Klibanov Alexander M
Department of Chemistry, Massachusetts Institute of Technology, Building 56-579, Cambridge, Massachusetts 02139, USA.
Pharm Res. 2007 Aug;24(8):1564-71. doi: 10.1007/s11095-007-9279-3. Epub 2007 Mar 24.
Low efficiency and toxicity are two major drawbacks of current non-viral gene delivery vectors. Since DNA delivery to mammalian cells is a multi-step process, generating and searching combinatorial libraries of vectors employing high-throughput synthesis and screening methods is an attractive strategy for the development of new improved vectors because it increases the chance of identifying the most overall optimized vectors.
Based on the rationale that increasing the effective molecular weight of small PEIs, which are poor vectors compared to the higher molecular weight homologues but less toxic, raises their transfection efficiency due to better DNA binding, we synthesized a library of 144 biodegradable derivatives from two small PEIs and 24 bi- and oligo-acrylate esters. A 423-Da linear PEI and its 1:1 (w/w) mixture with a 1.8-kDa branched PEI were cross-linked with the acrylates at three molar ratios in DMSO. The resulting polymers were screened for their efficiency in delivering a beta-galactosidase expressing plasmid to COS-7 monkey kidney cells. Selected most potent polymers from the initial screen were tested for toxicity in A549 human lung cancer cells, and in vivo in a systemic gene delivery model in mice employing a firefly luciferase expressing plasmid.
Several polycations that exhibited high potency and low toxicity in vitro were identified from the library. The most potent derivative of the linear 423-Da PEI was that cross-linked with tricycle-[5.2.1.0]-decane-dimethanol diacrylate (diacrylate 14), which exhibited an over 3,600-fold enhancement in efficiency over the parent. The most potent mixed PEI was that cross-linked with ethylene glycol diacrylate (diacrylate 4) which was over 850-fold more efficient than the physically mixed parent PEIs. The relative efficiencies of these polymers were even up to over twice as high as that of the linear 22-kDa PEI, considered the "gold standard" for in vitro and systemic gene delivery. The potent cross-linked polycations identified were also less toxic than the 22-kDa PEI. The optimal vector in vivo was the mixed PEI cross-linked with propylene glycol glycerolate diacrylate (diacrylate 7); it mediated the highest gene expression in the lungs, followed by the spleen, with the expression in the former being 53-fold higher compared to the latter. In contrast, the parent PEIs mediated no gene expression at all under similar conditions, and injection of the polyplexes of the 22-kDa PEI at its optimal N/P of 10 prepared under identical conditions killed half of the mice injected.
High-throughput synthesis and transfection assay of a cross-linked library of biodegradable PEIs was proven effective in identifying highly transfecting vectors. The identified vectors exhibited dramatically superior efficiency compared to their parents both in vitro and in an in vivo systemic gene delivery model. The majority of these vectors mediated preferential gene delivery to the lung, and their in vivo toxicity paralleled that in vitro.
低效率和毒性是当前非病毒基因递送载体的两个主要缺点。由于DNA传递到哺乳动物细胞是一个多步骤过程,利用高通量合成和筛选方法生成并搜索载体的组合文库是开发新型改良载体的一种有吸引力的策略,因为这增加了识别最全面优化载体的机会。
基于这样的理论基础,即与高分子量同系物相比,小分子聚乙烯亚胺(PEI)作为载体效果较差但毒性较小,通过提高其有效分子量可因其更好的DNA结合能力而提高转染效率,我们从两种小分子PEI和24种双丙烯酸酯及低聚丙烯酸酯合成了一个包含144种可生物降解衍生物的文库。一种423 Da的线性PEI及其与1.8 kDa支链PEI的1:1(w/w)混合物在二甲基亚砜中以三种摩尔比与丙烯酸酯交联。所得聚合物针对其将表达β-半乳糖苷酶的质粒递送至COS-7猴肾细胞的效率进行筛选。从初始筛选中选出的最有效的聚合物在A549人肺癌细胞中进行毒性测试,并在小鼠的全身基因递送模型中使用表达萤火虫荧光素酶的质粒进行体内测试。
从文库中鉴定出了几种在体外表现出高效力和低毒性的聚阳离子。线性423 Da PEI的最有效衍生物是与三环-[5.2.1.0]-癸烷-二甲醇二丙烯酸酯(二丙烯酸酯14)交联的产物,其效率比母体提高了3600多倍。最有效的混合PEI是与乙二醇二丙烯酸酯(二丙烯酸酯4)交联的产物,其效率比物理混合的母体PEI高出850多倍。这些聚合物的相对效率甚至比线性22 kDa PEI高出两倍多,线性22 kDa PEI被认为是体外和全身基因递送的“金标准”。鉴定出的有效的交联聚阳离子也比22 kDa PEI毒性小。体内最佳载体是与丙二醇甘油酸二丙烯酸酯(二丙烯酸酯7)交联 的混合PEI;它在肺中介导了最高的基因表达,其次是脾脏,前者的表达比后者高53倍。相比之下,母体PEI在类似条件下根本不介导基因表达,并且在相同条件下以其最佳N/P为10制备的22 kDa PEI的多聚体注射会导致一半注射小鼠死亡。
可生物降解PEI交联文库的高通量合成和转染测定被证明可有效鉴定高转染载体。所鉴定的载体在体外和体内全身基因递送模型中均表现出比其母体显著优越的效率。这些载体中的大多数介导了向肺的优先基因递送,并且它们的体内毒性与体外毒性相似。
