Electrically mediated delivery of vector plasmid DNA elicits an antitumor effect
Open Access
- 11 September 2002
- journal article
- research article
- Published by Springer Nature in Gene Therapy
- Vol. 9 (19) , 1321-1325
- https://doi.org/10.1038/sj.gt.3301802
Abstract
In vivo electroporation is an efficient means of increasing plasmid DNA delivery to normal tissues, such as skin and muscle, as well as directly to tumors. In the experiments described here, plasmid DNA was delivered by in vivo electroporation to B16 mouse melanomas using two very different pulsing protocols. Reporter expression increased 21- or 42-fold, respectively with electroporation over injection alone. The growth of experimental melanomas with an approximate diameter of 4 mm on the day of treatment was monitored after electroporation delivery of reporter plasmid DNA. Remarkably, short-term complete regressions using one of these pulsing protocols occurred in up to 100% of mice. These regressions continued long term in up to 83% of animals. 70% of these mice were resistant to challenge with B16 melanoma cells. Histological analysis revealed large numbers of apoptotic cells 24 h after treatment. This antitumor effect did not require therapeutic cDNA expression or eukaryotic sequences.Keywords
This publication has 40 references indexed in Scilit:
- Intratumoral Delivery of Interleukin 12 Expression Plasmids withIn VivoElectroporation Is Effective for Colon and Renal CancerHuman Gene Therapy, 2001
- In Vivo Electroporation Using an Exponentially Enhanced Pulse: A New WaveformDNA and Cell Biology, 2001
- Intramuscular electroporation delivery of IFN-α gene therapy for inhibition of tumor growth located at a distant siteGene Therapy, 2001
- Continuous Erythropoietin Delivery by Muscle-Targeted Gene Transfer Usingin VivoElectroporationHuman Gene Therapy, 2000
- Electrochemotherapy: an emerging drug delivery method for the treatment of cancerAdvanced Drug Delivery Reviews, 1997
- Foreign Gene Expression in the Mouse Testis by Localizedin VivoGene TransferBiochemical and Biophysical Research Communications, 1997
- In vivo gene electroinjection and expression in rat liverFEBS Letters, 1996
- CpG motifs in bacterial DNA trigger direct B-cell activationNature, 1995
- Direct Gene Transfer into Mouse Muscle in VivoScience, 1990
- In vitro Augmentation of Natural Killer Cell Activity and Production of Interferon‐α/β and ‐γ with Deoxyribonucleic Acid Fraction from Mycobacterium bovis BCGJapanese Journal of Cancer Research, 1988