Optimization of Lung Surfactant Coating of siRNA Polyplexes for Pulmonary Delivery.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2024-01-01 Epub Date: 2022-11-29 DOI:10.1007/s11095-022-03443-3
Domizia Baldassi, Thi My Hanh Ngo, Olivia M Merkel
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Abstract

Purpose: The aim of this study was to understand how coating with a pulmonary surfactant, namely Alveofact, affects the physicochemical parameters as well as in vitro behavior of polyethylenimine (PEI) polyplexes for pulmonary siRNA delivery.

Methods: Alveofact-coated polyplexes were prepared at different Alveofact:PEI coating ratios and analyzed in terms of size, PDI and zeta potential as well as morphology by transmission electron microscopy. The biological behavior was evaluated in a lung epithelial cell line regarding cell viability, cellular uptake via flow cytometry and gene downregulation by qRT-PCR. Furthermore, a 3D ALI culture model was established to test the mucus diffusion and cellular uptake by confocal microscopy as well as gene silencing activity by qRT-PCR.

Results: After optimizing the coating process by testing different Alveofact:PEI coating ratios, a formulation with suitable parameters for lung delivery was obtained. In lung epithelial cells, Alveofact-coated polyplexes were well tolerated and internalized. Furthermore, the coating improved the siRNA-mediated gene silencing efficiency. Alveofact-coated polyplexes were then tested on a 3D air-liquid interface (ALI) culture model that, by expressing tight junctions and secreting mucus, resembles important traits of the lung epithelium. Here, we identified the optimal Alveofact:PEI coating ratio to achieve diffusion through the mucus layer while retaining gene silencing activity. Interestingly, the latter underlined the importance of establishing appropriate in vitro models to achieve more consistent results that better predict the in vivo activity.

Conclusion: The addition of a coating with pulmonary surfactant to polymeric cationic polyplexes represents a valuable formulation strategy to improve local delivery of siRNA to the lungs.

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优化用于肺部递送的 siRNA 多聚体的肺表面活性涂层
目的:本研究旨在了解肺表面活性剂(即 Alveofact)涂层如何影响用于肺 siRNA 递送的聚乙烯亚胺(PEI)多聚体的理化参数和体外行为:方法:以不同的 Alveofact:PEI 涂层比例制备 Alveofact 涂层多聚体,并通过透射电子显微镜分析其尺寸、PDI 和 zeta 电位以及形态。在肺上皮细胞系中对其生物学行为进行了评估,包括细胞存活率、流式细胞仪的细胞摄取和 qRT-PCR 的基因下调。此外,还建立了三维 ALI 培养模型,通过共聚焦显微镜检测粘液扩散和细胞吸收情况,并通过 qRT-PCR 检测基因沉默活性:结果:通过测试不同的Alveofact:PEI包衣比例优化包衣工艺后,获得了适合肺部递送的配方参数。在肺上皮细胞中,Alveofact包被的多聚物具有良好的耐受性和内化性。此外,涂层还提高了 siRNA 介导的基因沉默效率。然后,我们在三维气液界面(ALI)培养模型上测试了包被 Alveofact 的多聚物,该模型表达紧密连接并分泌粘液,与肺上皮细胞的重要特征相似。在这里,我们确定了最佳的 Alveofact:PEI 涂层比例,以实现通过粘液层的扩散,同时保持基因沉默活性。有趣的是,后者强调了建立适当体外模型的重要性,以获得更一致的结果,更好地预测体内活性:结论:在聚合物阳离子多聚物上添加肺表面活性剂涂层是一种有价值的制剂策略,可改善 siRNA 在肺部的局部递送。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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