Long duration electroporation for achieving high level expression of glucocorticoid receptors in mammalian cell lines.

A method is presented that utilizes long duration electroporation (LDE) to more efficiently introduce DNA into mammalian cell lines than standard electroporation techniques. With SV40-based vectors, more than 550,000 glucocorticoid receptors (GRs) per cell could be obtained in COS-7 cells with good cell survival. In experiments with a CMV-driven vector expressing an enhanced Green Fluorescent Protein (EGFP), 54% of the cells were transfected, and 77% of EGFP positive cells expressed EGFP at moderate to high levels. In cell lines not containing the large T antigen, a CMV-driven vector for the GR was superior to the SV40-based vector. In EDR3, DG44, and CV-1 cell lines approximately 220,000, 190,000 and 150,000 GRs/cell were obtained, respectively. Transfection efficiency of the EGFP vector ranged from 44 to 55% for the three cell lines. Cortisol treatment of COS-7 and DG44 cultures cotransfected with vectors expressing the GR and a GRE driven luciferase gene produced 4 to 12 times more enzyme activity per plate with LDE than conventional electroporation protocols. LDE allows transient overexpression of proteins in COS-7 cells at the high levels generally achieved by mammalian overexpression systems only in stable cell lines.