Transfection of HeLa-cells with pEGFP plasmid power-assisted by impedance electroporation
(2005) In Biotechnology and Bioengineering 92(3). p.267-276- Abstract
- Bioimpedance spectrometry was applied to study cell viability and pEGFP plasmid-transfection efficiency in electroporation (EP) of 20,000 HeLa cells with 0.3 mu g DNA in 90 mu l low conductivity 0.32 M sucrose medium of pH 7.5. Monopolar rectangular pulses, of field strength 75 V/mm, and pulse length 0.1 ms were applied in 1-16 repetitions with a 10-sec pause interval between pulses. Surviving cells were stained by crystal violet and counted using a confocal microscope. Transfected cells were fixed with 10% formaldehyde and counted as green spots in a fluorescence microscope. In the present investigation we used the method of bioimpedance spectrometry to analyze the effect of EP on survival and transfection ratio of cells in suspension. DC... (More)
- Bioimpedance spectrometry was applied to study cell viability and pEGFP plasmid-transfection efficiency in electroporation (EP) of 20,000 HeLa cells with 0.3 mu g DNA in 90 mu l low conductivity 0.32 M sucrose medium of pH 7.5. Monopolar rectangular pulses, of field strength 75 V/mm, and pulse length 0.1 ms were applied in 1-16 repetitions with a 10-sec pause interval between pulses. Surviving cells were stained by crystal violet and counted using a confocal microscope. Transfected cells were fixed with 10% formaldehyde and counted as green spots in a fluorescence microscope. In the present investigation we used the method of bioimpedance spectrometry to analyze the effect of EP on survival and transfection ratio of cells in suspension. DC and low-frequency AC currents preferably pass through the medium due to the high impedance of the cell membrane. At frequencies above 10 kHz the impedance of the cell membrane starts to decrease and the impedance value of the cell suspension approach a lower limit value R-infinity at infinite frequency. Recording of electrical impedance spectra of cells in culture was performed over a frequency range of 10 Hz to 125 kHz, allowing separation of the contribution from extracellular space and that of the cell membranes. A parallel resistance capacitance model of the cell suspension was used to evaluate the response of applying EP pulses. The values of the collective membrane resistance R-M decay exponentially (r(2) = 0.995) with the number of applied pulses. The ratio of the extrapolated value of the intact membrane resistance before pulsing, R-M,(O), and the value R-M,R-N after each pulse makes an index of the effect of electroporation on the cells. The ratio R-M,R-N/R-M,(O) as well as the relative change of the dissipation factor, tan delta, on the "Loss Change Index" (LCI) fits well a dose-response model (r(2) = 0.98) with the number of applied pulses. The changes in the model parameters membrane resistance Delta R-M = [1- R-M,(N)/R-M,o] and loss factor [1- tan delta(O)/tan Omega(N)] correlate well with the transfection ratio and fraction of dead cells. Those parameters were used for power-assisted electroporation in monitoring, controlling, and optimizing the EP procedure. (Less)
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https://lup.lub.lu.se/record/216705
- author
- Glahder, J ; Norrild, B ; Persson, Mikael B and Persson, Bertil R LU
- organization
- publishing date
- 2005
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- electro-pulsation, cell survival, bioimpedance spectrometry, cell membrane, permeabilization, MLS-pulse sequence
- in
- Biotechnology and Bioengineering
- volume
- 92
- issue
- 3
- pages
- 267 - 276
- publisher
- John Wiley & Sons Inc.
- external identifiers
-
- wos:000232910000002
- pmid:16161165
- scopus:27744473896
- pmid:16161165
- ISSN
- 1097-0290
- DOI
- 10.1002/bit.20426
- language
- English
- LU publication?
- yes
- id
- 136fe80c-cb2e-4352-8098-6c7d6e7fa619 (old id 216705)
- date added to LUP
- 2016-04-01 11:40:47
- date last changed
- 2022-01-26 08:39:16
@article{136fe80c-cb2e-4352-8098-6c7d6e7fa619, abstract = {{Bioimpedance spectrometry was applied to study cell viability and pEGFP plasmid-transfection efficiency in electroporation (EP) of 20,000 HeLa cells with 0.3 mu g DNA in 90 mu l low conductivity 0.32 M sucrose medium of pH 7.5. Monopolar rectangular pulses, of field strength 75 V/mm, and pulse length 0.1 ms were applied in 1-16 repetitions with a 10-sec pause interval between pulses. Surviving cells were stained by crystal violet and counted using a confocal microscope. Transfected cells were fixed with 10% formaldehyde and counted as green spots in a fluorescence microscope. In the present investigation we used the method of bioimpedance spectrometry to analyze the effect of EP on survival and transfection ratio of cells in suspension. DC and low-frequency AC currents preferably pass through the medium due to the high impedance of the cell membrane. At frequencies above 10 kHz the impedance of the cell membrane starts to decrease and the impedance value of the cell suspension approach a lower limit value R-infinity at infinite frequency. Recording of electrical impedance spectra of cells in culture was performed over a frequency range of 10 Hz to 125 kHz, allowing separation of the contribution from extracellular space and that of the cell membranes. A parallel resistance capacitance model of the cell suspension was used to evaluate the response of applying EP pulses. The values of the collective membrane resistance R-M decay exponentially (r(2) = 0.995) with the number of applied pulses. The ratio of the extrapolated value of the intact membrane resistance before pulsing, R-M,(O), and the value R-M,R-N after each pulse makes an index of the effect of electroporation on the cells. The ratio R-M,R-N/R-M,(O) as well as the relative change of the dissipation factor, tan delta, on the "Loss Change Index" (LCI) fits well a dose-response model (r(2) = 0.98) with the number of applied pulses. The changes in the model parameters membrane resistance Delta R-M = [1- R-M,(N)/R-M,o] and loss factor [1- tan delta(O)/tan Omega(N)] correlate well with the transfection ratio and fraction of dead cells. Those parameters were used for power-assisted electroporation in monitoring, controlling, and optimizing the EP procedure.}}, author = {{Glahder, J and Norrild, B and Persson, Mikael B and Persson, Bertil R}}, issn = {{1097-0290}}, keywords = {{electro-pulsation; cell survival; bioimpedance spectrometry; cell membrane; permeabilization; MLS-pulse sequence}}, language = {{eng}}, number = {{3}}, pages = {{267--276}}, publisher = {{John Wiley & Sons Inc.}}, series = {{Biotechnology and Bioengineering}}, title = {{Transfection of HeLa-cells with pEGFP plasmid power-assisted by impedance electroporation}}, url = {{http://dx.doi.org/10.1002/bit.20426}}, doi = {{10.1002/bit.20426}}, volume = {{92}}, year = {{2005}}, }