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Expert Opinion on Biological Therapy Volume 12, 2012 - Issue 3
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Reviews

Towards the mechanisms for efficient gene transfer into cells and tissues by means of cell electroporation

Saulius ŠatkauskasVytautas Magnus University, Biology Department, Biophysical Research Group, Vileikos 8, Kaunas LT-44404, Lithuania+370 37 327905; +370 37 327916; [email protected]
, PhD,
Paulius RuzgysVytautas Magnus University, Biology Department, Biophysical Research Group, Vileikos 8, Kaunas LT-44404, Lithuania+370 37 327905; +370 37 327916; [email protected]
&
Mindaugas S VenslauskasVytautas Magnus University, Biology Department, Biophysical Research Group, Vileikos 8, Kaunas LT-44404, Lithuania+370 37 327905; +370 37 327916; [email protected]
, PhD
Pages 275-286 | Published online: 17 Feb 2012

Bibliography

  • Andre FM, Mir LM. Nucleic acids electrotransfer in vivo: mechanisms and practical aspects. Curr Gene Ther 2010;10:267-80
  • Gothelf A, Gehl J. Gene electrotransfer to skin; review of existing literature and clinical perspectives. Curr Gene Ther 2010;10:287-99
  • Rochard A, Scherman D, Bigey P. Genetic immunization with plasmid DNA mediated by electrotransfer. Hum Gene Ther 2011;22:789-98
  • Andreason GL, Evans GA. Introduction and expression of DNA molecules in eukaryotic cells by electroporation. Biotechniques 1988;6:650-60
  • Somiari S, Glasspool-Malone J, Drabick JJ, Theory and in vivo application of electroporative gene delivery. Mol Ther 2000;2:178-87
  • Bigey P, Bureau MF, Scherman D. In vivo plasmid DNA electrotransfer. Curr Opin Biotechnol 2002;13:443-7
  • Mir LM, Moller PH, Andre F, Gehl J. Electric pulse-mediated gene delivery to various animal tissues. Adv Genet 2005;54:83-114
  • Daud AI, DeConti RC, Andrews S, Phase I trial of interleukin-12 plasmid electroporation in patients with metastatic melanoma. J Clin Oncol 2008;26:5896-903
  • Kinosita K Jr, Tsong TY. Formation and resealing of pores of controlled sizes in human erythrocyte membrane. Nature 1977;268:438-41
  • Chernomordik LV, Sukharev SI, Popov SV, The electrical breakdown of cell and lipid membranes: the similarity of phenomenologies. Biochim Biophys Acta 1987;902:360-73
  • Sowers AE, Lieber MR. Electropore diameters, lifetimes, numbers, and locations in individual erythrocyte ghosts. FEBS Lett 1986;205:179-84
  • Weaver JC, Chizmadzhev YuA. Theory of electroporation: a review. Bioelectrochem Bioenerg 1996;41:135-60
  • Levine ZA, Vernier PT. Life cycle of an electropore: field-dependent and field-independent steps in pore creation and annihilation. J Membr Biol 2010;236:27-36
  • Bernhardt J, Pauly H. On the generation of potential differences across the membranes of ellipsoidal cells in an alternating electrical field. Biophysik 1973;10:89-98
  • Kinosita K Jr, Ashikawa I, Saita N, Electroporation of cell membrane visualized under a pulsed-laser fluorescence microscope. Biophys J 1988;53:1015-19
  • Hibino M, Itoh H, Kinosita K Jr. Time courses of cell electroporation as revealed by submicrosecond imaging of transmembrane potential. Biophys J 1993;64:1789-800
  • Teissie J, Rols MP. An experimental evaluation of the critical potential difference inducing cell membrane electropermeabilization. Biophys J 1993;65:409-13
  • Sowers AE, Lieber MR. Electropore diameters, lifetimes, numbers, and locations in individual erythrocyte ghosts. FEBS Lett 1986;205:179-84
  • Saulis G, Venslauskas MS. Asymetrical electrical breakdown of the cells – Theory of phenomenon. Studia Biophys 1988;128:155-61
  • Gabriel B, Teissie J. Direct observation in the millisecond time range of fluorescent molecule asymmetrical interaction with the electropermeabilized cell membrane. Biophys J 1997;73:2630-7
  • Glaser RW, Leikin SL, Chernomordik LV, Reversible electrical breakdown of lipid bilayers: formation and evolution of pores. Biochim Biophys Acta 1988;940:275-87
  • Tieleman DP, Leontiadou H, Mark AE, Marrink SJ. Simulation of pore formation in lipid bilayers by mechanical stress and electric fields. J Am Chem Soc 2003;125:6382-3
  • Tarek M. Membrane electroporation: a molecular dynamics simulation. Biophys J 2005;88:4045-53
  • Rols MP, Teissie J. Electropermeabilization of mammalian cells. Quantitative analysis of the phenomenon. Biophys J 1990;58:1089-98
  • Kinosita K Jr, Tsong TY. Formation and resealing of pores of controlled sizes in human erythrocyte membrane. Nature 1977;268:438-41
  • Neumann E, Toensing K, Kakorin S, Mechanism of electroporative dye uptake by mouse B cells. Biophys J 1998;74:98-108
  • Saulis G, Venslauskas MV, Naktinis J. Kinetics of pore resealing in cell membranes after electroporation. Bioelectrochem Bioenerg 1991;321:1-13
  • Rols MP, Teissie J. Electropermeabilization of mammalian cells to macromolecules: control by pulse duration. Biophys J 1998;75:1415-23
  • Escoffre JM, Portet T, Wasungu L, What is (still not) known of the mechanism by which electroporation mediates gene transfer and expression in cells and tissues. Mol Biotechnol 2009;41:286-95
  • Parsegian AV, Ninham BW. Application of the Lifshitz theory to the calculation of Van der Waals forces across thin lipid films. Nature 1969;224:1197-8
  • Dimitrov DS, Sowers AE. Membrane electroporation – fast molecular exchange by electroosmosis. Biochim Biophys Acta 1990;1022:381-92
  • Prausnitz MR, Corbett JD, Gimm JA, Millisecond measurement of transport during and after an electroporation pulse. Biophys J 1995;68:1864-70
  • Pucihar G, Kotnik T, Miklavcic D, Teissie J. Kinetics of transmembrane transport of small molecules into electropermeabilized cells. Biophys J 2008;95:2837-48
  • Neumann E, Kakorin S, Toensing K. Membrane electroporation and electromechanical deformation of vesicles and cells. Faraday Discuss 1998;111:111-25
  • Puc M, Kotnik T, Mir LM, Miklavcic D. Quantitative model of small molecules uptake after in vitro cell electropermeabilization. Bioelectrochemistry 2003;60:1-10
  • Neumann E, Schaefer-Ridder M, Wang Y, Hofschneider PH. Gene transfer into mouse lyoma cells by electroporation in high electric fields. EMBO J 1982;1:841-5
  • Neumann E, Sowers AE, Jordan CA. Electroporation and electrofusion in cell biology. Plenum; New York: 1989
  • Potter H. Electroporation in biology: methods, applications, and instrumentation. Anal Biochem 1988;174:361-73
  • Titomirov AV, Sukharev S, Kistanova E. In vivo electroporation and stable transformation of skin cells of newborn mice by plasmid DNA. Biochim Biophys Acta 1991;1088:131-4
  • Nishi T, Yoshizato K, Yamashiro S, High-efficiency in vivo gene transfer using intraarterial plasmid DNA injection following in vivo electroporation. Cancer Res 1996;56:1050-5
  • Heller R, Jaroszeski M, Atkin A, In vivo gene electroinjection and expression in rat liver. FEBS Lett 1996;389:225-8
  • Aihara H, Miyazaki J. Gene transfer into muscle by electroporation in vivo. Nat Biotechnol 1998;16:867-70
  • Rols MP, Delteil C, Golzio M, Teissie J. Control by ATP and. ADP of voltage-induced mammalian cell membrane permeabilization, gene transfer and resulting expression. Eur J Biochem 1998;254:382-8
  • Mathiesen I. Electropermeabilization of skeletal muscle enhances gene transfer in vivo. Gene Ther 1999;6:508-14
  • Suzuki T, Shin BC, Fujikura K, Direct gene transfer into rat liver cells by in vivo electroporation. FEBS Lett 1998;425:436-40
  • Mir LM, Bureau MF, Gehl J, High-efficiency gene transfer into skeletal muscle mediated by electric pulses. Proc Natl Acad Sci USA 1999;96:4262-7
  • Heller L, Jaroszeski MJ, Coppola D, Electrically mediated plasmid DNA delivery to hepatocellular carcinomas in vivo. Gene Ther 2000;7:826-9
  • Wells JM, Li LH, Sen A, Electroporation-enhanced gene delivery in mammary tumors. Gene Ther 2000;7:541-7
  • Cemazar M, Pavlin D, Kranjc S, Sequence and time dependence of transfection efficiency of electrically-assisted gene delivery to tumors in mice. Curr Drug Deliv 2006;3:77-81
  • Zhang L, Nolan E, Kreitschitz S, Rabussay DP. Enhanced delivery of naked DNA to the skin by non-invasive in vivo electroporation. Biochim Biophys Acta 2002;1572:1-9
  • Tupin E, Poirier B, Bureau MF, Non-viral gene transfer of murine spleen cells achieved by in vivo electroporation. Gene Ther 2003;10:569-79
  • Dean DA, Machado-Aranda D, Blair-Parks K, Electroporation as a method for high-level nonviral gene transfer to the lung. Gene Ther 2003;10:1608-15
  • Muramatsu T, Shibata O, Ryoki S, Foreign gene expression in the mouse testis by localized in vivo gene transfer. Biochem Biophys Res Commun 1997;233:45-9
  • Young JL, Benoit JN, Dean DA. Effect of a DNA nuclear targeting sequence on gene transfer and expression of plasmids in the intact vasculature. Gene Ther 2003;10:1465-70
  • Ayuni EL, Gazdhar A, Giraud MN, In vivo electroporation mediated gene delivery to the beating heart. PLoS One 2010;5: published online 30 December 2010; doi:10.1371/journal.pone.0014467
  • Haas K, Jensen K, Sin WC, Targeted electroporation in Xenopus tadpoles in vivo – from single cells to the entire brain. Differentiation 2002;70:148-54
  • Kolle G, Jansen A, Yamada T, Little M. In ovo electroporation of Crim1 in the developing chick spinal cord. Dev Dyn 2003;226:107-11
  • Martinez CY, Hollenbeck PJ. Transfection of primary central and peripheral nervous system neurons by electroporation. Methods Cell Biol 2003;71:339-51
  • Murphy RC, Messer A. Gene transfer methods for CNS organotypic cultures: a comparison of three nonviral methods. Mol Ther 2001;3:113-21
  • Andre F, Mir LM. DNA electrotransfer: its principles and an updated review of its therapeutic applications. Gene Ther 2004;11:33-42
  • Cemazar M, Jarm T, Sersa G. Cancer electrogene therapy with interleukin-12. Curr Gene Ther 2010;10:300-11
  • Heller LC, Heller R. Electroporation gene therapy preclinical and clinical trials for melanoma. Curr Gene Ther 2010;10:312-17
  • Marti G, Ferguson M, Wang J, Electroporative transfection with KGF-1 DNA improves wound healing in a diabetic mouse model. Gene Ther 2004;11:1780-5
  • Ferraro B, Cruz YL, Coppola D, Heller R. Intradermal delivery of plasmid VEGF165 by electroporation promotes wound healing. Mol Ther 2009;17:651-7
  • LeBlanc R, Vasquez Y, Hannaman D, Kumar N. Markedly enhanced immunogenicity of a Pfs25 DNA-based malaria transmission-blocking vaccine by in vivo electroporation. Vaccine 2008;26:185-92
  • Low L, Mander A, McCann K, DNA vaccination with electroporation induces increased antibody responses in patients with prostate cancer. Hum Gene Ther 2009;20:1269-78
  • Nystrom J, Chen A, Frelin L, Improving on the ability of endogenous hepatitis B core antigen to prime cytotoxic T lymphocytes. J Infect Dis 2010;201:1867-79
  • Chiarella P, Fazio VM, Signori E. Application of electroporation in DNA vaccination protocols. Curr Gene Ther 2010;10:281-6
  • Sardesai NY, Weiner DB. Electroporation delivery of DNA vaccines: prospects for success. Curr Opin Immunol 2011;23:421-9
  • Lu QL, Bou-Gharios G, Partridge TA. Non-viral gene delivery in skeletal muscle: a protein factory. Gene Ther 2003;10:131-42
  • Martinenghi S, De C, Angelis G, Human insulin production and amelioration of diabetes in mice by electrotransfer-enhanced plasmid DNA gene transfer to the skeletal muscle. Gene Ther 2002;9:1429-37
  • Sun W, Wang L, Zhang Z, Intramuscular transfer of naked calcitonin gene-related peptide gene prevents autoimmune diabetes induced by multiple low-dose streptozotocin in C57BL mice. Eur J Immunol 2003;33:233-42
  • Wang XD, Liu J, Yang JC, Mice body weight gain is prevented after naked human leptin cDNA transfer into skeletal muscle by electroporation. J Gene Med 2003;5:966-76
  • Gollins H, McMahon J, Wells KE, Wells DJ. High-efficiency plasmid gene transfer into dystrophic muscle. Gene Ther 2003;10:504-12
  • Mathiesen I. Electropermeabilization of skeletal muscle enhances gene transfer in vivo. Gene Ther 1999;6:508-14
  • Vicat JM, Boisseau S, Jourdes P, Muscle transfection by electroporation with high-voltage and short-pulse currents provides high-level and long-lasting gene expression. Hum Gene Ther 2000;11:909-16
  • Wolf H, Rols MP, Boldt E, Control by pulse parameters of electric field-mediated gene transfer in mammalian cells. Biophys J 1994;66:524-31
  • Klenchin VA, Sukharev SI, Serov SM, Electrically induced DNA uptake by cells is a fast process involving DNA electrophoresis. Biophys J 1991;60:804-11
  • Sukharev S, Klenchin VA, Serov SM, Chernomordik LV. Chizmadzhev YuA. Electroporation and electrophoretic DNA transfer into cells The effect of DNA interaction with electropores. Biophys J 1992;63:1320-7
  • Spassova M, Tsoneva I, Petrov AG, Dip patch clamp currents suggest electrodiffusive transport of the polyelectrolyte DNA through lipid bilayers. Biophys Chem 1994;52:267-74
  • Neumann E, Kakorin S, Tsoneva I, Calcium-mediated DNA adsorption to yeast cells and kinetics of cell transformation by electroporation. Biophys J 1996;71:868-77
  • Golzio M, Teissie J, Rols MP. Direct visualization at the single-cell level of electrically mediated gene delivery. Proc Natl Acad Sci USA 2002;99:1292-7
  • Escoffre JM, Portet T, Favard C, Electromediated formation of DNA complexes with cell membranes and its consequences for gene delivery. Biochim Biophys Acta 2011;1808:1538-43
  • Satkauskas S, Bureau MF, Puc M, Mechanisms of in vivo DNA electrotransfer: respective contributions of cell electropermeabilization and DNA electrophoresis. Mol Ther 2002;5:133-40
  • Satkauskas S, Andre F, Bureau MF, Electrophoretic component of electric pulses determines the efficacy of in vivo DNA electrotransfer. Hum Gene Ther 2005;16:1194-201
  • Cepurniene K, Satkauskas S. Dependence of DNA electrotransfer into cells in vitro on cell electroporation and DNA electrophoresis. IFMBE Proc 2008;20:606-9
  • Kanduser M, Miklavcic D, Pavlin M. Mechanisms involved in gene electrotransfer using high- and low-voltage pulses – an in vitro study. Bioelectrochemistry 2009;74:265-71
  • Cepurniene K, Ruzgys P, Treinys R, Influence of plasmid concentration on DNA electrotransfer in vitro using high-voltage and low-voltage pulses. J Membr Biol 2010;236:81-5
  • Faurie C, Rebersek M, Golzio M, Electro-mediated gene transfer and expression are controlled by the life-time of DNA/membrane complex formation. J Gene Med 2010;12:117-25
  • Golzio M, Escoffre JM, Portet T, Observations of the mechanisms of electromediated DNA uptake–from vesicles to tissues. Curr Gene Ther 2010;10:256-66
  • Escoffre JM, Teissie J, Rols MP. Gene transfer: how can the biological barriers be overcome? J Membr Biol 2010;236:61-74
  • Bureau MF, Gehl J, Deleuze V, Importance of association between permeabilization and electrophoretic forces for intramuscular DNA electrotransfer. Biochim Biophys Acta 2000;1474:353-9
  • Xie TD, Sun L, Tsong TY. Study of mechanisms of electric field-induced DNA transfection. I. DNA entry by surface binding and diffusion through membrane pores. Biophys J 1990;58:13-19
  • Hristova NI, Tsoneva I, Neumann E. Sphingosine-mediated electroporative DNA transfer through lipid bilayers. FEBS Lett 1997;415:81-6
  • Angelova MI, Hristova N, Tsoneva I. DNA-induced endocytosis upon local microinjection to giant unilamellar cationic vesicles. Eur Biophys J 1999;28:142-50
  • Pavlin M, Pucihar G, Kanduser M. The role of electrically stimulated endocytosis in gene electrotransfer. Bioelectrochemistry 2012;83:38-45
  • Rosazza C, Phez E, Escoffre JM, Cholesterol implications in plasmid DNA electrotransfer: evidence for the involvement of endocytotic pathways. Int J Pharm 2011; published online 2011 May 12; DOI: 10.1016/j.ijpharm. 2011.05.024
  • Rosazza C, Escoffre JM, Zumbusch A, Rols MP. The actin cytoskeleton has an active role in the electrotransfer of plasmid DNA in mammalian cells. Mol Ther 2011;19:913-21
  • Pollard H, Toumaniantz G, Amos JL, Ca2+-sensitive cytosolic nucleases prevent efficient delivery to the nucleus of injected plasmids. J Gene Med 2001;3:153-64
  • Lechardeur D, Lukacs GL. Nucleocytoplasmic transport of plasmid DNA: a perilous journey from the cytoplasm to the nucleus. Hum Gene Ther 2006;17:882-9
  • Mir LM, Orlowski S, Belehradek J Jr, Paoletti C. Electrochemotherapy potentiation of antitumour effect of bleomycin by local electric pulses. Eur J Cancer 1991;27:68-72
  • Cemazar M, Tamzali Y, Sersa G, Electrochemotherapy in veterinary oncology. J Vet Intern Med 2008;22:826-31
  • Mir LM, Gehl J, Sersa G, Standard operating procedures of the electrochemotherapy. Instructions for the use of bleomycin or cisplatin administered either systemically or locally and electric pulses delivered by the CliniporatorTM by means of invasive or non-invasive electrodes. EJC 2008(Suppl 4):14-25

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