用于非病毒基因传递的新型可降解阳离子聚酯

Jie Fu, E. Krauland, Y. Har-el, J. Hanes
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引用次数: 0

摘要

合成了一个由天冬氨酸和不同长度的脂肪二醇组成的可生物降解阳离子聚酯新家族。由于形成的聚合物是严格交替的,阳离子电荷密度可以通过简单地改变间隔脂肪族单体的大小来控制。其中一种聚合物,聚天冬氨酸酸酐-共乙二醇(PAE),被发现能够自组装(/spl sim/100 nm)成聚合物胶束并与DNA络合。动力学研究表明,PAE最初将DNA配合成亚100 nm的复合物,随后在室温下3-6天后释放DNA。由于具有降解和拆封其遗传物质的能力,这种新的可生物降解阳离子聚合物家族有望成为体外和体内应用的多功能基因载体。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
New degradable cationic polyesters for nonviral gene delivery
A new family of biodegradable cationic polyesters consisting of aspartic acid and aliphatic diols of various lengths has been synthesized. Since the polymers formed are strictly alternating, the cationic charge density can be controlled by simply changing the size of the spacer aliphatic monomer. One such polymer, poly(aspartic anhydride-co-ethylene glycol) (PAE), was found to be capable of self-assembly (/spl sim/100 nm) into polymeric micelles and complexation with DNA. Kinetic studies reveal PAE initially complexes DNA into sub-100 nm complexes and subsequently releases it after 3-6 days at room temperature. With the ability to degrade and unpack its genetic material, this new family of biodegradable cationic polymers shows promise as versatile gene carriers for in vitro and in vivo applications.
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