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首页> 外文期刊>Journal of Pharmacy and Pharmaceutical Sciences >Development of Lyophilized Gemini Surfactant-Based Gene Delivery Systems: Influence of Lyophilization on the Structure, Activity and Stability of the Lipoplexes
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Development of Lyophilized Gemini Surfactant-Based Gene Delivery Systems: Influence of Lyophilization on the Structure, Activity and Stability of the Lipoplexes

机译:冻干的基于双子叶表面活性剂的基因传递系统的开发:冻干对脂复合物的结构,活性和稳定性的影响

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Purpose. Cationic gemini surfactants have been studied as non-viral vectors for gene therapy. Clinical applications of cationic lipid/DNA lipoplexes are restricted by their instability in aqueous formulations. In this work, we investigated the influence of lyophilization on the essential physiochemical properties and in vitro transfection of gemini surfactant-lipoplexes. Additionally, we evaluated the feasibility of lyophilization as a technique for preparing lipoplexes with long term stability. Methods. A gemini surfactant [12-7NH-12] and plasmid DNA encoding for interferon-γ were used to prepare gemini surfactant/pDNA [P/G] lipoplexes. Helper lipid DOPE [L] was incorporated in all formulation producing a [P/G/L] system. Sucrose and trehalose were utilized as stabilizing agents. To evaluate the ability of lyophilization to improve the stability of gemini surfactant-based lipoplexes, four lyophilized formulations were stored at 25?C for three months. The formulations were analyzed at different time-points for physiochemical properties and in vitro transfection. Results. The results showed that both sucrose and trehalose provided anticipated stabilizing effect. The transfection efficiency of the lipoplexes increased 2-3 fold compared to fresh formulations upon lyophilization. This effect can be attributed to the improvement of DNA compaction and changes in the lipoplex morphology due to the lyophilization/rehydration cycles. The physiochemical properties of the lyophilized formulations were maintained throughout the stability study. All lyophilized formulations showed a significant loss of gene transfection activity after three months of storage. Nevertheless, no significant losses of transfection efficiency were observed for three formulations after two months storage at 25 ?C. Conclusion. Lyophilization significantly improved the physical stability of gemini surfactant-based lipoplexes compared to liquid formulations. As well, lyophilization improved the transfection efficiency of the lipoplexes. The loss of transfection activity upon storage is most probably due to the conformational changes in the supramolecular structure of the lipoplexes as a function of time and temperature rather than to DNA degradation. This article is open to POST-PUBLICATION REVIEW. Registered readers (see “For Readers”) may comment by clicking on on the issue’s contents page.
机译:目的。已经研究了阳离子双子表面活性剂作为基因治疗的非病毒载体。阳离子脂质/ DNA脂质复合物在水性制剂中的不稳定性限制了其临床应用。在这项工作中,我们调查了冻干对双子表面活性剂-脂质复合物的基本理化性质和体外转染的影响。此外,我们评估了冻干作为制备具有长期稳定性的脂质复合物的技术的可行性。方法。用双子表面活性剂[12-7NH-12]和编码干扰素-γ的质粒DNA制备双子表面活性剂/ pDNA [P / G]脂质复合物。辅助脂质DOPE [L]被掺入所有产生[P / G / L]系统的制剂中。蔗糖和海藻糖被用作稳定剂。为了评估冻干提高双子表面活性剂基脂质复合物稳定性的能力,将四种冻干制剂在25°C下保存三个月。在不同时间点分析制剂的理化性质和体外转染。结果。结果表明,蔗糖和海藻糖均提供了预期的稳定作用。与冻干后的新鲜制剂相比,脂质体的转染效率提高了2-3倍。这种作用可以归因于DNA紧实性的改善和由于冻干/水合循环而引起的脂质复合物形态的改变。在整个稳定性研究中,冻干制剂的理化特性得以保持。储存三个月后,所有冻干制剂均显示基因转染活性明显丧失。然而,在25°C下保存两个月后,三种制剂均未观察到明显的转染效率损失。结论。与液体制剂相比,冻干显着改善了基于双子表面活性剂的脂质复合物的物理稳定性。同样,冻干提高了脂质复合物的转染效率。储存时转染活性的丧失很可能是由于脂质复合物的超分子结构的构象变化随时间和温度的变化而不是DNA的降解引起的。本文对发布后审查开放。已注册的读者(请参阅“针对读者”)可以通过单击问题的内容页面来发表评论。

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