Biophysical Chemistry, Friedrich-Wilhelms-University Bonn , D-53012 Bonn, Germany.
Langmuir. 2017 Jan 31;33(4):1051-1059. doi: 10.1021/acs.langmuir.6b04304. Epub 2017 Jan 17.
Direct delivery of proteins and peptides into living mammalian cells has been accomplished using phospholipid liposomes as carrier particles. Such liposomes are usually taken up via endocytosis where the main part of their cargo is degraded in lysosomes before reaching its destination. Here, fusogenic liposomes, a newly developed molecular carrier system, were used for protein delivery. When such liposomes were loaded with water-soluble proteins and brought into contact with mammalian cells, the liposomal membrane efficiently fused with the cellular plasma membrane delivering the liposomal content to the cytoplasm without degradation. To explore the key factors of proteofection processes, the complex formation of fusogenic liposomes and proteins of interest and the size and zeta potential of the formed fusogenic proteoliposoms were monitored. Intracellular protein delivery was analyzed using fluorescence microscopy and flow cytometry. Proteins such as EGFP, Dendra2, and R-phycoerythrin or peptides such as LifeAct-FITC and NTF2-AlexaFluor488 were successfully incorporated into mammalian cells with high efficiency. Moreover, correct functionality and faithful transport to binding sites were also proven for the imported proteins.
使用磷脂脂质体作为载体颗粒,已经可以将蛋白质和肽直接递送到活的哺乳动物细胞中。这些脂质体通常通过内吞作用被细胞摄取,其大部分货物在到达目的地之前在溶酶体中被降解。在这里,融合脂质体,一种新开发的分子载体系统,被用于蛋白质递送。当这些脂质体装载水溶性蛋白质并与哺乳动物细胞接触时,脂质体膜与细胞膜有效地融合,将脂质体内容物递送到细胞质中而不被降解。为了探索蛋白转染过程的关键因素,监测了融合脂质体与感兴趣的蛋白质的复合物形成以及形成的融合蛋白脂质体的大小和 ζ 电位。使用荧光显微镜和流式细胞术分析细胞内蛋白质的递送。成功地将 EGFP、Dendra2 和 R-藻红蛋白等蛋白质或 LifeAct-FITC 和 NTF2-AlexaFluor488 等肽高效地递送到哺乳动物细胞中。此外,还证明了导入蛋白质的正确功能和对结合部位的忠实运输。
