一种高效的合成载体:体内非水动力递送 DNA 至肝细胞核。
A highly efficient synthetic vector: nonhydrodynamic delivery of DNA to hepatocyte nuclei in vivo.
机构信息
The Center for Nanotechnology in Drug Delivery, Division of Molecular Pharmaceutics, Eshelman School of Pharmacy, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina 27599, USA.
出版信息
ACS Nano. 2013 Jun 25;7(6):5376-84. doi: 10.1021/nn4012384. Epub 2013 May 10.
Abstract
Multifunctional membrane-core nanoparticles, composed of calcium phosphate cores, arginine-rich peptides, cationic and PEGylated lipid membranes, and galactose targeting ligands, have been developed as synthetic vectors for efficient nuclear delivery of plasmid DNA and subsequent gene expression in hepatocytes in vivo. Targeted particles exhibited rapid and extensive hepatic accumulation and were predominantly internalized by hepatocytes, while the inclusion of such peptides in LCP was sufficient to elicit high degrees of nuclear translocation of plasmid DNA. Monocyclic CR8C significantly enhanced in vivo gene expression over 10-fold more than linear CR8C, likely due to a release-favoring mechanism of the DNA/peptide complex. Though 100-fold lower in activity than that achieved via hydrodynamic injection, this formulation presents as a much less invasive alternative. To our knowledge, this is the most effective synthetic vector for liver gene transfer.
摘要
多功能膜核纳米粒由磷酸钙核心、富含精氨酸的肽、阳离子和 PEG 化脂质膜以及半乳糖靶向配体组成,已被开发为用于有效将质粒 DNA 递送至细胞核并在体内肝细胞中进行后续基因表达的合成载体。靶向颗粒表现出快速和广泛的肝积累,并且主要被肝细胞内化,而将这些肽包含在 LCP 中足以引起质粒 DNA 的高核易位程度。单环 CR8C 比线性 CR8C 显著增强了 10 倍以上的体内基因表达,这可能是由于 DNA/肽复合物的释放促进机制。尽管其活性比水动力注射低 100 倍,但这种制剂的侵入性要小得多。据我们所知,这是用于肝脏基因转移的最有效合成载体。
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