Title of article
Physicochemical and biological study of selected hydrophobic polyethylenimine-based polycationic liposomes and their complexes with DNA Original Research Article
Author/Authors
Andrea Masotti، نويسنده , , Fabiola Moretti، نويسنده , , Francesca Mancini، نويسنده , , Giuseppina Russo، نويسنده , , Nicoletta Di Lauro، نويسنده , , Paola Checchia، نويسنده , , Carlotta Marianecci، نويسنده , , Maria Carafa، نويسنده , , Eleonora Santucci، نويسنده , , Giancarlo Ortaggi، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
12
From page
1504
To page
1515
Abstract
Non-viral gene therapy is based on the development of efficient and safe gene carrier systems able to transfer DNA into cells. Polyethylenimine (PEI), the most promising non-viral vector, with its high cationic-charge-density potential is able (1) to compact DNA in complexes (polyplexes) smaller than those formed by liposomes (lipoplexes) and (2) to destabilize the endosomal membrane by a ‘proton sponge’ effect. Several PEI’s hydrophobic modifications were reported in the last several years but in some cases a reduced transfection efficiency was observed. The mechanism underlying this phenomenon is not well understood so far. In order to extensively investigate these mechanisms, we reported a physicochemical and biological study of selected hydrophobic PEI’s derivatives grafted with chains of different length and percentages of substitution able to form vesicles (polycationic liposomes) and to bind DNA. Their properties were studied by means of dynamic light scattering, freeze-fracture microscopy, potentiometric titrations, gel retardation assays, polyanion exchange reactions, toxicity assays, in vitro transfections, and fluorescence microscopy. Our results indicate that even if polyplexes are able to pass through the cellular membrane, the stability of PEI’s hydrophobic polyplexes likely explain their different transfection efficiency in vitro.
Keywords
Polycationic vectors , DNA complexes , Transfection , Polyethylenimine , Translocation
Journal title
Bioorganic and Medicinal Chemistry
Serial Year
2007
Journal title
Bioorganic and Medicinal Chemistry
Record number
1305358
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