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  • Title: Neuronal gene delivery by negatively charged pullulan-spermine/DNA anioplexes.
    Author: Thakor DK, Teng YD, Tabata Y.
    Journal: Biomaterials; 2009 Mar; 30(9):1815-26. PubMed ID: 19152971.
    Abstract:
    Nonviral gene transfer to neurons remains unreliable due to a lack of effective and nontoxic vectors. Here, we achieved effective neuronal gene delivery through salt-free complexation of plasmid DNA and pullulan-spermine, a conjugate prepared from a naturally derived polysaccharide and polyamine. Specifically, at low spermine nitrogen:DNA phosphate (N:P) ratios, complexes formed with zeta-potential and diameter of approximately-40mV and 350nm, respectively. Higher N:P ratios increased the zeta-potential to approximately +10mV. All complexes were stable for at least 1 week and protected DNA from degradation. In vitro transfection of rat sensory neurons occurred at all N:P ratios, but uniquely, efficiency was highest for anionic complexes (anioplexes). Subsequent analyses revealed the inhibition of reporter gene expression by asialofetuin (1mg/ml) and methyl-beta-cyclodextrin (5mm), indicating utilization of glycoprotein-specific interactions and lipid rafts for uptake and intracellular trafficking. In marked contrast to a commercial cationic lipid reagent, anioplexes did not exhibit measurable cytotoxicity at up to 20microg/ml DNA. Additionally, transfection efficiency was maintained in the presence of serum and antibiotics. Based on these favorable properties, we successfully established two transfection methods for cultured adult sensory neurons and tissue explants. Collectively, these data suggest that negatively charged pullulan-spermine/DNA anioplexes could represent an effective gene delivery technology, particularly for neurons.
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