Therapeutic implications of delivery and expression of foreign genes in hepatocytes

Gene transfection of primary mouse hepatocytes in 384-well plates

We report the development of an improved in vitro transfection assay to test the efficiency of non-viral vector DNA nanoparticle transfection of primary hepatocytes. The protocol describes the isolation of viable hepatocytes from a mouse by collagenous perfusion. Primary mouse hepatocytes are plated in 384-well plates and cultured for 24 h prior to transfection with polyethylenimine (PEI) or peptide DNA nanoparticles. Luciferase expression is measured after 24 h following the addition of ONE-Glo substrate. The gene transfer assay for primary hepatocytes was optimized for cell plating number, DNA dose, and PEI to DNA ratio. The assay was applied to compare the expression mediated by mRNA relative to two plasmids possessing different promoters. The reported assay provides reliable in vitro expression results that allow direct comparison of the efficiency of different non-viral gene delivery vectors.

Targeted in vivo delivery of therapeutic gene into experimental squamous cell carcinomas using anti-epidermal growth factor receptor antibody: immunogene approach

The "Fab immunogene" is a novel gene transfer vehicle in which the Fab fragment of anti-human epidermal growth factor (EGF) receptor antibody B4G7 is conjugated with poly-L-lysine to form an affinity complex with DNA. It was developed to target delivery of therapeutic genes into EGF receptor-hyperproducing tumor cells. Various characteristic features of the immunogene have been documented (Chen et al., 1998). Here we add further evidence to prove that in vitro transfer of beta-galactosidase/Fab immunogene is exclusively to EGF receptor-positive cells and that the herpes simplex virus thymidine kinase (TK)/Fab immunogene induces substantial suicide effects on A431 tumor cells when treated together with ganciclovir. The in vivo specificity of the immunogene transfer was examined using A431 tumor-bearing nude mice. When these nude mice were injected intraperitoneally with the chloramphenicol acetyltransferase (CAT)/Fab immunogene, CAT DNA was detected in the tumors as well as in liver and kidney but not brain, whereas CAT mRNA and enzyme activity were detected only in the tumors. Local and intraperitoneal injection of the TK/Fab immunogene and subsequent administration of ganciclovir effectively suppressed the growth of A431 tumors transplanted on the backs of nude mice. These observations suggest a possible application of the Fab immunogene system in cancer gene therapy.