ABSTRACT
A 23 amino acid, bifunctional integrin-targeted synthetic oligopeptide was evaluated for ex vivo gene delivery to rabbit bone marrow stromal cells (BMSCs). Synthesis of the peptide (K)16GRGDSPC was performed on a solid-phase batch peptide synthesizer. BMSCs were transfected with plasmid DNA coding for luciferase by (K)16GRGDSPC and the transfection efficiency was assayed. The influences of chloroquine and polyethyleneimine on the transfection efficiency were also examined. The target specificity of (K)16GRGDSPC to mediate exogenous gene into BMSCs was analyzed using cell attachment test and gene delivery inhibition test. The results showed that the transfection efficiency of the oligopeptide vector was lower than that of Lipofectamine. But in the presence of endosomal buffer chloroquine or endosomal disrupting agent polyethyleneimine, the transfection efficiency of the vector was greatly enhanced. In addition, RGD-containing peptides inhibited BMSCs' attachment to the 96-well plates pretreated with fibronectin or vitronectin and significantly decreased the transfection efficiency of the oligopeptide vector. These studies demonstrated that oligopeptide (K)16GRGDSPC was an ideal novel targeted non-viral gene delivery vector, which was easy to be synthesized, high efficient and low cytotoxicity. The vector could effectively deliver exogenous gene into rat BMSCs.
ABSTRACT
Objective: To investigate the effects of novel targeted non-viral vector in gene therapy of human glioma. Methods: The EGF-R targeting gene delivery system GE7 was constructed. Human Glioma cell line U251 was transfected in vitro with ?-gal as reportor gene and p21 as therapeutic gene using this gene delivery system. By means of the assay of ?-galactosidase staining, Western blotting, in situ end labeling apoptosis cells and DNA ladder, the transferring of exogenous genes and the apoptosis of the tumor cells were examined.Results: It was showed that gene transfer efficiency is over 80%. When transfected with p21 gene, the growth of cells was inhibited significantly, and the apoptosis was detected in the transfected cell by the methods of in situ end labeling and DNA ladder. Conclusion: The GE7 gene delivery system has the ability to transfer exogenous gene to tumor cells and the expression of the therapeutic gene can inhibit the growth of the cells.