Peptide Self-Assembly Facilitating DNA Transfection and the Application in Inhibiting Cancer Cells.

Non-viral vectors have been developing in gene delivery due to their safety and low immunogenicity. But their transfection effect is usually very low, thus limiting the application. Hence, we designed eight peptides (compounds 1-8). We compared their performances; compound 8 had the best transfection efficacy and biocompatibility. The transfection effect was similar with that of PEI, a most-widely-employed commercial transfection reagent. Atomic force microscope (AFM) images showed that the compound could self-assemble and the self-assembled peptide might encapsulate DNA. Based on these results, we further analyzed the inhibitory result in cancer cells and found that compound 8 could partially fight against Hela cells. Therefore, the compound is promising to pave the way for the development of more effective and less toxic transfection vectors.

Apoptin and apoptotic protease-activating factor 1 plasmid-assisted multi-functional nanoparticles in hepatocellular carcinoma therapy.

Cancer drugs usually have side effects in chemotherapy. Apoptin, a protein recognized by its good therapeutical effect on tumors and innocuous to body, is employed to treat hepatocellular carcinoma (HCC). As our previous data shown, the efficiency of apoptin protein might be limited by the protein of apaf-1. Therefore, we designed the multi-functional nanoparticles (MFNPs) encapsulating apoptin and apaf-1 plasmids by layer-by layer assembly. The NPs could release drugs into tumor site specifically and had good compatibility to normal cells and tissues. The groups of biotin, ε-polylysine, and nuclear localization signal in MFNPs conferred NPs the capabilities to enter cancer cells specifically, escape lysosome and enter the nucleus, respectively. In vitro inhibition experiment and in vivo anti-tumor therapy confirmed MFNPs as an excellent carrier to treat HCC. In addition, the dual-drug system was superior to any of the single-drug system. The mechanism analysis proved that supplement of the protein of apaf-1 might enhance apoptosome formation, causing the increase of therapeutical efficacy.