Highly stomach-selective gene transfer following gastric serosal surface instillation of naked plasmid DNA in rats.

BACKGROUND: The purpose of this study was to achieve stomach-selective gene transfer in rats by our simple and novel administration method, which is gastric serosal surface instillation of naked plasmid DNA (pDNA). METHODS: Naked pDNA encoding firefly luciferase as a reporter gene was instilled onto the gastric serosal surface in male Wistar rats. As controls, we performed intraperitoneal, intragastric and intravenous administration of naked pDNA. At appropriate time intervals, we measured luciferase activities in the stomach and other tissues. RESULTS: Gene expression in the stomach 6 h after gastric serosal surface instillation of naked pDNA (5 microg) was significantly higher than that after using other administration methods. The present study is the first report on stomach-selective gene transfer following instillation of naked pDNA onto the gastric serosal surface in rats. Also, the gene expression level in the stomach 6 h after gastric serosal surface instillation of naked pDNA was markedly higher than that in other tissues. In a dose-dependent study, the gene expression level was saturated over 5 microg. Gene expression in the stomach was detected 3 h after gastric serosal surface instillation of naked pDNA. The gene expression level peaked 12-24 h after instillation of naked pDNA, then decreased to a level similar to 3 h at 48 h. CONCLUSIONS: Gastric serosal surface in stillation of naked pDNA can be a highly stomach-selective gene transfer method in rats

Improved stomach selectivity of gene expression following microinstillation of plasmid DNA onto the gastric serosal surface in mice

Stomach-selective gene transfer is a promising approach as a therapeutic strategy for refractory gastric diseases. In this study, we improved the stomach selectivity of gene expression following microinstillation of naked plasmid DNA (pDNA) onto the gastric serosal surface in mice. pDNA encoding firefly luciferase was used as a reporter gene. It was confirmed that the gene expression level in the stomach 6 h after gastric serosal surface microinstillation of pDNA was significantlyhigher than after intragastric, intraperitoneal and intravenous administration. Regarding selectivity ofgene expression, the gene expression level in the stomach after gastric serosal surfacemicroinstillation of 1 μg/1 μL (dose/volume) pDNA was 5.7 times higher than that in the spleen. In our previous study (30 μg/30 μL), the expression level in the stomach was 2.7 times higher than that in the spleen; therefore, the selectivity was 2.1 times higher in this study. When we investigated gene expression at various pDNA solution concentrations, the ratio of the gene expression level in the stomach to that in the spleen was the highest as 1 μg/1 μL of pDNA, which was considered the optimal concentration. Information in this study is useful for further development of target organ-selective gene delivery systems