Polymeric gene delivery systems have been developed as an alternative for viral gene delivery systems to overcome the problems in the use of viral gene carriers. Polymeric carriers have many advantages as gene carriers such as low cytotoxicity, low immunogenicity, moderate transfection efficiency, no size-limit, low cost, and reproducibility. In the efforts to develop safe and efficient polymeric gene carriers, polyethylene glycol (PEG) has widely been used because of its excellent characteristics. PEG-conjugated copolymers have advantages for gene delivery: (1) The PEG-conjugated copolymers show low cytotoxicity to cells in vitro and in vivo, (2) PEG increases water-solubility of the polymer/DNA complex, (3) PEG reduces the interaction of the polymer/DNA complex with serum proteins and increases circulation time of the complex, 4) PEG can be used as a spacer between a targeting ligand and a cationic polymer. A targeting ligand at the end of a PEG chain is not disturbed by the interaction of a cationic polymer with plasmid DNA, and the PEG spacer increases the accessibility of the ligand to its receptor. In this review, PEG copolymers as gene carriers are introduced, and their characteristics are discussed.
Polymeric gene carriers are a potential alternative to using viral vectors. Polymeric carriers have relatively low immunogenicity and cytotoxicity. In addition, polymeric carriers can accommodate large-size DNA, be conjugated with appropriate functionalities, and be administered repeatedly. In spite of these advantages, polymeric gene carriers have some limitations, such as low gene transfection efficiencies and relatively short duration of gene expression. Therefore, extensive research has been conducted toward the development of efficient polymeric carriers. In this review, we discuss current problems associated with polymeric gene carriers and various strategies against transfection barriers in particular, gene stabilization and protection, cellular targeting, endosomal escaping, nuclear targeting, unpackaging, and biocompatibility. Finally, requirements for future polymeric gene carriers are considered. With all these ongoing efforts, polymeric carriers have become one of the promising gene delivery methods for human gene therapy.
Hypercholesterolemia-related endothelial cell dysfunction and decreased endothelium-derived nitric oxide formation may account for impaired angiogenesis and subsequent erectile dysfunction. Angiopoietin-1 (Ang1) is a critical angiogenic factor for vascular maturation and enhances vascular endothelial growth factor (VEGF)-induced angiogenesis in a complementary manner. We hypothesized that combined adenovirus-delivered human Ang1 (ad-Ang1) and VEGF165 (ad-VEGF165) gene transfer might promote angiogenesis cooperatively in a rat model of hypercholesterolemic erectile dysfunction and result in a recovery of erectile function. Ad-Ang1 and ad-VEGF165 were injected either alone or in combination into the corpus cavernosum of the penis. Combined gene transfer of both ad-Ang1 and ad-VEGF165 significantly increased cavernous angiogenesis, eNOS phosphorylation, and cGMP expression compared with that in the groups treated with either therapy alone. Erectile function, as evaluated by electrical stimulation of the cavernous nerve 2 and 8 weeks after treatment, was completely restored in the combined treatment group, whereas intracavernous injection of either ad-Ang1 or ad-VEGF165 alone elicited partial improvement. The results indicate that combined application of angiogenic factors may enhance cavernous angiogenesis cooperatively by reinforcing the endothelium both structurally and functionally, which results in an additive effect on erectile function in hypercholesterolemic rats.
Repeated, local, nonviral IL12 (interleukin-12) gene delivery decreased tumor progression and increased immunogenicity. We combined our IL12 gene delivery with systemic paclitaxel chemotherapy as a treatment for paclitaxel (PCT)-resistant 4T1 subcutaneous mouse mammary carcinomas and PCT-sensitive, immunogenic/nonimmunogenic tumors. We mixed PCT with either a biodegradable polymeric solubilizer, HySolv, or Cremophor EL for bimonthly systemic treatments and injected water-soluble lipopolymer (WSLP)/p2CMVmIL-12 (plasmid encoding IL12 gene) complexes locally every week. We compared treated subcutaneous tumor volume and lung metastasis with controls. HySolv alone performed better compared to Cremophor EL in combination with WSLP/p2CMVmIL-12. We showed inhibition of 4T1 tumor growth and lung metastases in the combined WSLP/p2CMVmIL-12/HySolv group compared to the controls and the paclitaxel-only treated groups. In parallel experiments we also demonstrated additive responses for tumor growth and number of lung metastases within other PCT-sensitive mammary tumor models using this combination strategy. Our combination therapy provides evidence for the efficacy and feasibility of improved drug delivery systems. Local cytokine gene delivery can augment local and systemic chemotherapy without placing the host at risk for further systemic toxicity.
Progesterone has been used as an ingredient of anticancer drug for patients with ovarian carcinoma. However, the mechanism of anticancer effects by progesterone has not been understood. In this study, the effects of progesterone on ovarian cancer cells, SNU-840, were investigated. After the incubation with progesterone, the viability of the cells was evaluated by MTT assay. As a result, 45% of the cells were viable after 48 h of incubation with 100 microM progesterone. In addition, [(3)H]thymidine incorporation assay showed that the proliferation of the cells was completely inhibited by progesterone after 48 h of incubation at 100 microM concentration. Colorimetric TUNEL assay revealed the fragmentation of the chromosomal DNA, suggesting that the process of the cell death was apoptosis. The level of the p53 mRNA was determined by northern blotting assay, since many apoptosis processes are mediated by up-regulation of the p53 expression. The level of the p53 mRNA reached its maximum at 12 h and decreased after 24 h of incubation with progesterone. In conclusion, progesterone inhibits the proliferation and elicits apoptosis of SNU-840 cells. Also, it up-regulates the p53 mRNA transiently.
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