Keswani Rahul K, Lazebnik Mihael, Pack Daniel W
Department of Chemical and Biomolecular Engineering, University of Illinois, Urbana, IL 61801, USA.
Department of Chemical and Materials Engineering, University of Kentucky, Lexington, KY 40506, USA; Department of Pharmaceutical Sciences, University of Kentucky, Lexington, KY 40506, USA.
J Control Release. 2015 Jun 10;207:120-30. doi: 10.1016/j.jconrel.2015.04.015. Epub 2015 Apr 14.
Viral and non-viral gene delivery vectors are in development for human gene therapy, but both exhibit disadvantages such as inadequate efficiency, lack of cell-specific targeting or safety concerns. We have recently reported the design of hybrid delivery vectors combining retrovirus-like particles with synthetic polymers or lipids that are efficient, provide sustained gene expression and are more stable compared to native retroviruses. To guide further development of this promising class of gene delivery vectors, we have investigated their mechanisms of intracellular trafficking. Moloney murine leukemia virus-like particles (M-VLPs) were complexed with chitosan (Chi) or liposomes (Lip) comprising DOTAP, DOPE and cholesterol to form the hybrid vectors (Chi/M-VLPs and Lip/M-VLPs, respectively). Transfection efficiency and cellular internalization of the vectors were quantified in the presence of a panel of inhibitors of various endocytic pathways. Intracellular transport and trafficking kinetics of the hybrid vectors were dependent on the synthetic component and used a combination of clathrin- and caveolar-dependent endocytosis and macropinocytosis. Chi/M-VLPs were slower to transfect compared to Lip/M-VLPs due to the delayed detachment of the synthetic component. The synthetic component of hybrid gene delivery vectors plays a significant role in their cellular interactions and processing and is a key parameter for the design of more efficient gene delivery vehicles.
病毒和非病毒基因递送载体正处于人类基因治疗的研发阶段,但两者都存在一些缺点,如效率不足、缺乏细胞特异性靶向性或安全性问题。我们最近报道了一种杂交递送载体的设计,该载体将逆转录病毒样颗粒与合成聚合物或脂质相结合,具有高效性,能提供持续的基因表达,并且与天然逆转录病毒相比更稳定。为了指导这一有前景的基因递送载体类别的进一步发展,我们研究了它们的细胞内运输机制。莫洛尼鼠白血病病毒样颗粒(M-VLPs)与壳聚糖(Chi)或包含DOTAP、DOPE和胆固醇的脂质体(Lip)复合,分别形成杂交载体(Chi/M-VLPs和Lip/M-VLPs)。在一系列各种内吞途径抑制剂存在的情况下,对载体的转染效率和细胞内化进行了定量分析。杂交载体的细胞内运输和运输动力学取决于合成成分,并使用了网格蛋白依赖和小窝依赖的内吞作用以及巨胞饮作用的组合。由于合成成分的分离延迟,与Lip/M-VLPs相比,Chi/M-VLPs转染速度较慢。杂交基因递送载体的合成成分在其细胞相互作用和加工过程中起着重要作用,是设计更高效基因递送载体的关键参数。