Electroporation of adherent cells in situ for the study of signal transduction and gap junctional communication.

Cultured adherent cells can be electroporated in situ, as they grow on a glass slide coated with electrically conductive, optically transparent indium-tin oxide (ITO). Although the introduction of DNA is a common use, the technique of electroporation in situ is valuable for studying many aspects of signal transduction. This is because, under the appropriate conditions, in situ electroporation can be remarkably nontraumatic, while a large variety of molecules, such as peptides, oligonucleotides, or drugs, are introduced instantly and into essentially 100% of the cells, making this technique especially suitable for kinetic studies of effector activation.

In situ electroporation of radioactive compounds into adherent cells.

We previously developed a technique, termed in situ electroporation, where nonpermeant molecules are introduced through an electrical pulse into adherent cells, while they grow on electrically conductive, optically transparent, indium-tin oxide (ITO). Careful control of the electric field intensity results in essentially 100% of the cells taking up the introduced material, without any detectable effect upon the physiology of the cell, presumably because the pores reseal rapidly so that the cellular interior is restored to its original state. Electroporation of radioactive material is faced with two important considerations: (1) potential for exposure of personnel to irradiation, and (2) the requirement for electroporation of a large number of cells.