In vivo electrically mediated protein and gene transfer in murine melanoma
MP Rols, C Delteil, M Golzio, P Dumond, S Cros… - Nature …, 1998 - nature.com
MP Rols, C Delteil, M Golzio, P Dumond, S Cros, J Teissie
Nature biotechnology, 1998•nature.comWe show that efficient permeabilization of murine melanoma can be obtained in vivo by
applying electric pulses. More than 80% of the cell population is affected as shown by the
penetration of propidium iodide. A protein,(β-galactosidase, can be transferred and
expressed into the cells by incorporating either the protein or a plasmid carrying the reporter
gene with respective efficiencies of 20% and 4%. This is obtained by a direct injection of
either the protein or the plasmid in the tumor, followed by the application of electric pulses …
applying electric pulses. More than 80% of the cell population is affected as shown by the
penetration of propidium iodide. A protein,(β-galactosidase, can be transferred and
expressed into the cells by incorporating either the protein or a plasmid carrying the reporter
gene with respective efficiencies of 20% and 4%. This is obtained by a direct injection of
either the protein or the plasmid in the tumor, followed by the application of electric pulses …
Abstract
We show that efficient permeabilization of murine melanoma can be obtained in vivo by applying electric pulses. More than 80% of the cell population is affected as shown by the penetration of propidium iodide. A protein, (β-galactosidase, can be transferred and expressed into the cells by incorporating either the protein or a plasmid carrying the reporter gene with respective efficiencies of 20% and 4%. This is obtained by a direct injection of either the protein or the plasmid in the tumor, followed by the application of electric pulses with surface electrodes in contact with the skin. This approach is simple and safe to use, reproducible, and specific; moreover, it is potentially applicable to a wide variety of tissues, cell types, and animals.
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