Minicircle DNA Provides Enhanced and Prolonged Transgene Expression Following Airway Gene Transfer

Gene therapy for cystic fibrosis using non-viral, plasmid-based formulations has been the subject of intensive research for over two decades but a clinically viable product has yet to materialise in large part due to inefficient transgene expression. Minicircle DNA give enhanced and more persistent...

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Published in	Scientific reports Vol. 6; no. 1; p. 23125
Main Authors	Munye, Mustafa M., Tagalakis, Aristides D., Barnes, Josephine L., Brown, Rachel E., McAnulty, Robin J., Howe, Steven J., Hart, Stephen L.
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 15.03.2016 Nature Publishing Group
Subjects	13/109 13/31 631/61/201 631/61/391 Animals Axonemal Dyneins - genetics Axonemal Dyneins - metabolism Cell Line Clinical trials Cystic fibrosis Cytokines - metabolism Deoxyribonucleic acid DNA DNA, Circular - genetics Epithelial cells Epithelial Cells - metabolism Female Gene Expression Gene therapy Gene Transfer Techniques Genetic Vectors Green Fluorescent Proteins - genetics Green Fluorescent Proteins - metabolism Humanities and Social Sciences Humans Inflammation Luciferases, Firefly - genetics Luciferases, Firefly - metabolism Lung - metabolism Lungs Mice multidisciplinary Plasmids Respiratory tract Rodents Science Transfection Transgenes
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ISSN	2045-2322 2045-2322
DOI	10.1038/srep23125

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Abstract	Gene therapy for cystic fibrosis using non-viral, plasmid-based formulations has been the subject of intensive research for over two decades but a clinically viable product has yet to materialise in large part due to inefficient transgene expression. Minicircle DNA give enhanced and more persistent transgene expression compared to plasmid DNA in a number of organ systems but has not been assessed in the lung. In this study we compared minicircle DNA with plasmid DNA in transfections of airway epithelial cells. In vitro , luciferase gene expression from minicircles was 5–10-fold higher than with plasmid DNA. In eGFP transfections in vitro both the mean fluorescence intensity and percentage of cells transfected was 2–4-fold higher with minicircle DNA. Administration of equimolar amounts of DNA to mouse lungs resulted in a reduced inflammatory response and more persistent transgene expression, with luciferase activity persisting for 2 weeks from minicircle DNA compared to plasmid formulations. Transfection of equal mass amounts of DNA in mouse lungs resulted in a 6-fold increase in transgene expression in addition to more persistent transgene expression. Our findings have clear implications for gene therapy of airway disorders where plasmid DNA transfections have so far proven inefficient in clinical trials.
AbstractList	Gene therapy for cystic fibrosis using non-viral, plasmid-based formulations has been the subject of intensive research for over two decades but a clinically viable product has yet to materialise in large part due to inefficient transgene expression. Minicircle DNA give enhanced and more persistent transgene expression compared to plasmid DNA in a number of organ systems but has not been assessed in the lung. In this study we compared minicircle DNA with plasmid DNA in transfections of airway epithelial cells. In vitro, luciferase gene expression from minicircles was 5-10-fold higher than with plasmid DNA. In eGFP transfections in vitro both the mean fluorescence intensity and percentage of cells transfected was 2-4-fold higher with minicircle DNA. Administration of equimolar amounts of DNA to mouse lungs resulted in a reduced inflammatory response and more persistent transgene expression, with luciferase activity persisting for 2 weeks from minicircle DNA compared to plasmid formulations. Transfection of equal mass amounts of DNA in mouse lungs resulted in a 6-fold increase in transgene expression in addition to more persistent transgene expression. Our findings have clear implications for gene therapy of airway disorders where plasmid DNA transfections have so far proven inefficient in clinical trials. Gene therapy for cystic fibrosis using non-viral, plasmid-based formulations has been the subject of intensive research for over two decades but a clinically viable product has yet to materialise in large part due to inefficient transgene expression. Minicircle DNA give enhanced and more persistent transgene expression compared to plasmid DNA in a number of organ systems but has not been assessed in the lung. In this study we compared minicircle DNA with plasmid DNA in transfections of airway epithelial cells. In vitro , luciferase gene expression from minicircles was 5–10-fold higher than with plasmid DNA. In eGFP transfections in vitro both the mean fluorescence intensity and percentage of cells transfected was 2–4-fold higher with minicircle DNA. Administration of equimolar amounts of DNA to mouse lungs resulted in a reduced inflammatory response and more persistent transgene expression, with luciferase activity persisting for 2 weeks from minicircle DNA compared to plasmid formulations. Transfection of equal mass amounts of DNA in mouse lungs resulted in a 6-fold increase in transgene expression in addition to more persistent transgene expression. Our findings have clear implications for gene therapy of airway disorders where plasmid DNA transfections have so far proven inefficient in clinical trials. Gene therapy for cystic fibrosis using non-viral, plasmid-based formulations has been the subject of intensive research for over two decades but a clinically viable product has yet to materialise in large part due to inefficient transgene expression. Minicircle DNA give enhanced and more persistent transgene expression compared to plasmid DNA in a number of organ systems but has not been assessed in the lung. In this study we compared minicircle DNA with plasmid DNA in transfections of airway epithelial cells. In vitro, luciferase gene expression from minicircles was 5-10-fold higher than with plasmid DNA. In eGFP transfections in vitro both the mean fluorescence intensity and percentage of cells transfected was 2-4-fold higher with minicircle DNA. Administration of equimolar amounts of DNA to mouse lungs resulted in a reduced inflammatory response and more persistent transgene expression, with luciferase activity persisting for 2 weeks from minicircle DNA compared to plasmid formulations. Transfection of equal mass amounts of DNA in mouse lungs resulted in a 6-fold increase in transgene expression in addition to more persistent transgene expression. Our findings have clear implications for gene therapy of airway disorders where plasmid DNA transfections have so far proven inefficient in clinical trials.Gene therapy for cystic fibrosis using non-viral, plasmid-based formulations has been the subject of intensive research for over two decades but a clinically viable product has yet to materialise in large part due to inefficient transgene expression. Minicircle DNA give enhanced and more persistent transgene expression compared to plasmid DNA in a number of organ systems but has not been assessed in the lung. In this study we compared minicircle DNA with plasmid DNA in transfections of airway epithelial cells. In vitro, luciferase gene expression from minicircles was 5-10-fold higher than with plasmid DNA. In eGFP transfections in vitro both the mean fluorescence intensity and percentage of cells transfected was 2-4-fold higher with minicircle DNA. Administration of equimolar amounts of DNA to mouse lungs resulted in a reduced inflammatory response and more persistent transgene expression, with luciferase activity persisting for 2 weeks from minicircle DNA compared to plasmid formulations. Transfection of equal mass amounts of DNA in mouse lungs resulted in a 6-fold increase in transgene expression in addition to more persistent transgene expression. Our findings have clear implications for gene therapy of airway disorders where plasmid DNA transfections have so far proven inefficient in clinical trials.
ArticleNumber	23125
Author	Brown, Rachel E. Barnes, Josephine L. Munye, Mustafa M. Howe, Steven J. McAnulty, Robin J. Hart, Stephen L. Tagalakis, Aristides D.
Author_xml	– sequence: 1 givenname: Mustafa M. surname: Munye fullname: Munye, Mustafa M. organization: UCL Institute of Child Health – sequence: 2 givenname: Aristides D. surname: Tagalakis fullname: Tagalakis, Aristides D. organization: UCL Institute of Child Health – sequence: 3 givenname: Josephine L. surname: Barnes fullname: Barnes, Josephine L. organization: UCL Respiratory Centre for Inflammation and Tissue Repair – sequence: 4 givenname: Rachel E. surname: Brown fullname: Brown, Rachel E. organization: UCL MRC Laboratory for Molecular Cell Biology – sequence: 5 givenname: Robin J. surname: McAnulty fullname: McAnulty, Robin J. organization: UCL Respiratory Centre for Inflammation and Tissue Repair – sequence: 6 givenname: Steven J. surname: Howe fullname: Howe, Steven J. organization: UCL Institute of Child Health – sequence: 7 givenname: Stephen L. surname: Hart fullname: Hart, Stephen L. organization: UCL Institute of Child Health
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/26975732$$D View this record in MEDLINE/PubMed
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Title	Minicircle DNA Provides Enhanced and Prolonged Transgene Expression Following Airway Gene Transfer
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