Effects of the Surface Charge of Stem Cell Membranes and DNA/Polyethyleneimine Nanocomplexes on Gene Transfection Efficiency.

In this work, we examined the effects of the surface charge of stem cell membranes and DNA/polyethyleneimine (PEI) nanocomplexes on gene transfection efficiency, because PEI was one of the most reliable and efficient carriers, and rat bone marrow mesenchymal stem cells (rBMSCs) and rat muscle-derived stem cells (rMDSCs) were one of the readily accessible and plentiful sources of stem cells. Thus, we compared the efficiency of DNA transfection in rBMSCs and rMDSCs using the PEI as a gene carrier. Transfection efficiency was evaluated on the basis of electrostatic interaction between negatively charged stem cell membranes and positively charged DNA/PEI nanocomplexes.

Injectable intratumoral hydrogel as 5-fluorouracil drug depot.

The effectiveness of systemically administered anticancer treatments is limited by difficulties in achieving therapeutic doses within tumors, a problem that is complicated by dose-limiting side effects to normal tissue. To increase the efficacy and reduce the toxicity of systemically administered anticancer 5-fluorouracil (5-Fu) treatments in patients, intratumoral administration of an injectable hydrogel has been evaluated in the current work. The MPEG-b-(PCL-ran-PLLA) diblock copolymer (MCL) containing 5-Fu existed in an emulsion-sol state at room temperature and rapidly gelled in vivo at the body temperature.