Metal complexes, as a type of potential non-virus gene carriers, have gained much attention due to their properties of high charge density and unique three-dimensional structure. This study investigated the potential of polyethyleneimine (PEI)-modified rice bran polysaccharide-Fe(III) complex (PEI-PI) as a safe gene delivery system and explored the effect of Fe(III) on the efficiency of gene transfection mediated by PEI modified rice bran polysaccharide (PEI-P) and PEI-PI. Gel retardation assay was used to study the DNA binding and protection capability, MTT assay was performed to evaluate the biocompatibility, and PEI-PI complex-mediated EGFP gene transfection was studied in vitro. Results showed the PEI-PI could induce DNA condensation and protect DNA from degradation by DNase I at a low weight ratio (vector/DNA) of 2. At the same weight ratio, PEI exhibited the strongest DNA binding capability but PEI-PI exhibited the highest gene transfection efficiency among all carrier systems. Compared with the PEI-P + Fe(III) system, PEI-PI not only had a more significant capability to condense DNA but also presented higher gene transfection efficiency. Moreover, PEI-PI exhibited no obvious cytotoxicity to cells. This work provides a strategy for the design and development of gene vectors based on PI complexes.
Keywords: Biocompatibility; Gene delivery; Polysaccharide-Fe(III) complex.
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