Abstract
Polyethylenimine (PEI) is an efficient vector for in vitro and in vivo gene transfer into respiratory cells. Glycosylated PEIs were shown to enhance in vitro gene transfer by favoring the complex entry into the airway cells. The aim of our study was to evaluate the in vivo efficiency of gene transfer mediated by glycosylated PEIs in the mouse lung and to determine the transfected cell type and the intracellular trafficking of the complexes. Upon nasal instillation in mice of complexes made with various glycosylated PEIs, a high luciferase activity was observed while the green fluorescent protein (GFP) expression was similar for all the vectors tested with few cells expressing GFP. Complexes made with lactosylated PEI were then labeled and their localization studied by confocal microscopy. In the lungs, large numbers of complexes were taken up by epithelial cell which were mostly alveolar cells. In the airways, complex uptake varied greatly, depending on the area observed. Eight hours upon nasal instillation and in contrast with the in vitro situation, a dissociation between the plasmid DNA and the lactosylated PEI was usually observed, leading to the plasmid mostly localized in lysosomes and the Lac-PEI localized in the nucleus. These results emphasize the need to engineer a plasmid able by itself to overcome the nuclear barrier and to quickly move to in vivo experiments to select the best carrier.
Highlights
Polyethylenimine (PEI) is one of the most efficient nonviral vectors for in vitro and in vivo gene delivery [1,2]
The efficiency of gene transfer into the mouse lungs and airways was studied for five vectors: 22 kDa PEI, 25 kDa PEI and three glycosylated branched PEI: lactosylated PEI (Lac-PEI), glucosylated PEI (Glc-PEI) and mannosylated PEI (ManPEI)
For all 25 kDa PEI derivatives, the highest luciferase activity was observed 48 h after complex instillation and with complexes generated in a 5% glucose solution, using 100 μg of plasmid (Fig. 1a)
Summary
Polyethylenimine (PEI) is one of the most efficient nonviral vectors for in vitro and in vivo gene delivery [1,2]. PEI has been successfully tested for gene transfer into a number of organs and it was found to have limited toxic or immune effects [1,2]. It is mainly available in two forms, a linear 22 kDa and a branched 25 kDa form. They have both been studied for gene transfer into the respiratory tract. The efficiency was highly dependent of the physiochemical properties of plasmid/PEI complexes and of biological phenomena which are not yet fully
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