Comparison of the Efficiency of Complexes Based on S413-PV Cell-Penetrating Peptides in Plasmid DNA and siRNA Delivery

The successful application of gene therapy approaches is highly dependent on the efficient delivery of nucleic acids into target cells. In the present study, new peptide-based nonviral systems were developed to enhance plasmid DNA and siRNA delivery, aiming at generating appropriate gene delivery an...

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Veröffentlicht in:Molecular pharmaceutics 2013-07, Vol.10 (7), p.2653-2666
Hauptverfasser: Cardoso, Ana M, Trabulo, Sara, Cardoso, Ana L, Maia, Sílvia, Gomes, Paula, Jurado, Amália S, Pedroso de Lima, Maria C
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container_end_page 2666
container_issue 7
container_start_page 2653
container_title Molecular pharmaceutics
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creator Cardoso, Ana M
Trabulo, Sara
Cardoso, Ana L
Maia, Sílvia
Gomes, Paula
Jurado, Amália S
Pedroso de Lima, Maria C
description The successful application of gene therapy approaches is highly dependent on the efficient delivery of nucleic acids into target cells. In the present study, new peptide-based nonviral systems were developed to enhance plasmid DNA and siRNA delivery, aiming at generating appropriate gene delivery and gene silencing tools for preclinical and clinical application. For this purpose, a new cell-penetrating peptide derived from the wild-type S413-PV peptide was synthesized through the addition of a five-histidine tail to its N-terminus (H5-S413-PV), and its ability to mediate gene expression and gene silencing was evaluated and compared to that of the wild-type peptide. The histidine-enriched peptide, H5-S413-PV, proved to be generally more efficient and less toxic than the wild-type peptide in the delivery of plasmid DNA. In addition, complexes of H5-S413-PV with siRNAs, but not of S413-PV, were efficiently internalized by cells and presented high knockdown activity (63%). Interestingly, systems containing the S413-PV or the H5-S413-PV peptide exhibited superior biological activity when compared to those containing the reverse NLS or scrambled peptides, suggesting that both the cell-penetrating sequence and the NLS of the S413-PV peptide influence the competence of binary and ternary complexes to accomplish nucleic acid delivery. In order to unravel the cancer therapeutic potential of formulations with the histidine-enriched peptide, their efficiency to mediate silencing of the oncogenic protein survivin was evaluated. As opposed to complexes with the wild-type peptide, H5-S413-PV complexes showed the ability to promote a high survivin knockdown at the level of both protein (44%) and mRNA (73%), in HT1080 cells.
doi_str_mv 10.1021/mp400078h
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In the present study, new peptide-based nonviral systems were developed to enhance plasmid DNA and siRNA delivery, aiming at generating appropriate gene delivery and gene silencing tools for preclinical and clinical application. For this purpose, a new cell-penetrating peptide derived from the wild-type S413-PV peptide was synthesized through the addition of a five-histidine tail to its N-terminus (H5-S413-PV), and its ability to mediate gene expression and gene silencing was evaluated and compared to that of the wild-type peptide. The histidine-enriched peptide, H5-S413-PV, proved to be generally more efficient and less toxic than the wild-type peptide in the delivery of plasmid DNA. In addition, complexes of H5-S413-PV with siRNAs, but not of S413-PV, were efficiently internalized by cells and presented high knockdown activity (63%). Interestingly, systems containing the S413-PV or the H5-S413-PV peptide exhibited superior biological activity when compared to those containing the reverse NLS or scrambled peptides, suggesting that both the cell-penetrating sequence and the NLS of the S413-PV peptide influence the competence of binary and ternary complexes to accomplish nucleic acid delivery. In order to unravel the cancer therapeutic potential of formulations with the histidine-enriched peptide, their efficiency to mediate silencing of the oncogenic protein survivin was evaluated. 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Pharmaceutics</addtitle><date>2013-07-01</date><risdate>2013</risdate><volume>10</volume><issue>7</issue><spage>2653</spage><epage>2666</epage><pages>2653-2666</pages><issn>1543-8384</issn><eissn>1543-8392</eissn><abstract>The successful application of gene therapy approaches is highly dependent on the efficient delivery of nucleic acids into target cells. In the present study, new peptide-based nonviral systems were developed to enhance plasmid DNA and siRNA delivery, aiming at generating appropriate gene delivery and gene silencing tools for preclinical and clinical application. For this purpose, a new cell-penetrating peptide derived from the wild-type S413-PV peptide was synthesized through the addition of a five-histidine tail to its N-terminus (H5-S413-PV), and its ability to mediate gene expression and gene silencing was evaluated and compared to that of the wild-type peptide. 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title Comparison of the Efficiency of Complexes Based on S413-PV Cell-Penetrating Peptides in Plasmid DNA and siRNA Delivery
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