Literature DB >> 21343913

A peptide-based vector for efficient gene transfer in vitro and in vivo.

Taavi Lehto1, Oscar E Simonson, Imre Mäger, Kariem Ezzat, Helena Sork, Dana-Maria Copolovici, Joana R Viola, Eman M Zaghloul, Per Lundin, Pedro M D Moreno, Maarja Mäe, Nikita Oskolkov, Julia Suhorutšenko, C I Edvard Smith, Samir E L Andaloussi.   

Abstract

Finding suitable nonviral delivery vehicles for nucleic acid-based therapeutics is a landmark goal in gene therapy. Cell-penetrating peptides (CPPs) are one class of delivery vectors that has been exploited for this purpose. However, since CPPs use endocytosis to enter cells, a large fraction of peptides remain trapped in endosomes. We have previously reported that stearylation of amphipathic CPPs, such as transportan 10 (TP10), dramatically increases transfection of oligonucleotides in vitro partially by promoting endosomal escape. Therefore, we aimed to evaluate whether stearyl-TP10 could be used for the delivery of plasmids as well. Our results demonstrate that stearyl-TP10 forms stable nanoparticles with plasmids that efficiently enter different cell-types in a ubiquitous manner, including primary cells, resulting in significantly higher gene expression levels than when using stearyl-Arg9 or unmodified CPPs. In fact, the transfection efficacy of stearyl-TP10 almost reached the levels of Lipofectamine 2000 (LF2000), however, without any of the observed lipofection-associated toxicities. Most importantly, stearyl-TP10/plasmid nanoparticles are nonimmunogenic, mediate efficient gene delivery in vivo, when administrated intramuscularly (i.m.) or intradermally (i.d.) without any associated toxicity in mice.

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Year:  2011        PMID: 21343913      PMCID: PMC3149163          DOI: 10.1038/mt.2011.10

Source DB:  PubMed          Journal:  Mol Ther        ISSN: 1525-0016            Impact factor:   11.454


  41 in total

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Authors:  S Futaki; I Nakase; A Tadokoro; T Takeuchi; A T Jones
Journal:  Biochem Soc Trans       Date:  2007-08       Impact factor: 5.407

2.  An endosomolytic Tat peptide produced by incorporation of histidine and cysteine residues as a nonviral vector for DNA transfection.

Authors:  Seong Loong Lo; Shu Wang
Journal:  Biomaterials       Date:  2008-03-04       Impact factor: 12.479

3.  Delivery of short interfering RNA using endosomolytic cell-penetrating peptides.

Authors:  Pontus Lundberg; S El-Andaloussi; T Sütlü; H Johansson; U Langel
Journal:  FASEB J       Date:  2007-04-26       Impact factor: 5.191

Review 4.  Delivery of macromolecules using arginine-rich cell-penetrating peptides: ways to overcome endosomal entrapment.

Authors:  Ayman El-Sayed; Shiroh Futaki; Hideyoshi Harashima
Journal:  AAPS J       Date:  2009-01-06       Impact factor: 4.009

5.  Distinct uptake routes of cell-penetrating peptide conjugates.

Authors:  Per Lundin; Henrik Johansson; Peter Guterstam; Tina Holm; Mats Hansen; Ulo Langel; Samir EL Andaloussi
Journal:  Bioconjug Chem       Date:  2008-12       Impact factor: 4.774

Review 6.  siRNA delivery using peptide transduction domains.

Authors:  Akiko Eguchi; Steven F Dowdy
Journal:  Trends Pharmacol Sci       Date:  2009-06-21       Impact factor: 14.819

Review 7.  Cell-penetrating and cell-targeting peptides in drug delivery.

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Journal:  Biochim Biophys Acta       Date:  2008-04-09

Review 8.  Systemic therapeutic gene delivery for cancer: crafting Paris' arrow.

Authors:  Alex W Tong; Chris M Jay; Neil Senzer; Phillip B Maples; John Nemunaitis
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9.  A stearylated CPP for delivery of splice correcting oligonucleotides using a non-covalent co-incubation strategy.

Authors:  Maarja Mäe; Samir El Andaloussi; Per Lundin; Nikita Oskolkov; Henrik J Johansson; Peter Guterstam; Ulo Langel
Journal:  J Control Release       Date:  2008-12-06       Impact factor: 9.776

Review 10.  Enhancing the cellular uptake of siRNA duplexes following noncovalent packaging with protein transduction domain peptides.

Authors:  Bryan R Meade; Steven F Dowdy
Journal:  Adv Drug Deliv Rev       Date:  2007-10-22       Impact factor: 15.470
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  25 in total

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2.  Characterization and evaluation of a peptide-based siRNA delivery system in vitro.

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Journal:  Drug Deliv Transl Res       Date:  2017-08       Impact factor: 4.617

3.  The Effect of Size and Shape of RNA Nanoparticles on Biodistribution.

Authors:  Daniel L Jasinski; Hui Li; Peixuan Guo
Journal:  Mol Ther       Date:  2017-12-22       Impact factor: 11.454

Review 4.  A role for peptides in overcoming endosomal entrapment in siRNA delivery - A focus on melittin.

Authors:  Kirk K Hou; Hua Pan; Paul H Schlesinger; Samuel A Wickline
Journal:  Biotechnol Adv       Date:  2015-05-27       Impact factor: 14.227

5.  Immunogenicity of a bovine herpesvirus 1 glycoprotein D DNA vaccine complexed with bovine neutrophil beta-defensin 3.

Authors:  Sarah Mackenzie-Dyck; Laura Latimer; Ethel Atanley; Jennifer Kovacs-Nolan; Sam Attah-Poku; Lorne A Babiuk; Sylvia van Drunen Littel-van den Hurk
Journal:  Clin Vaccine Immunol       Date:  2014-11-05

6.  Construction and expression of a lentivirus expression vector carrying the VEGF165-EGFP fusion gene in breast cancer MCF-7 cells.

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7.  Controlling fibrous capsule formation through long-term down-regulation of collagen type I (COL1A1) expression by nanofiber-mediated siRNA gene silencing.

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Journal:  Acta Biomater       Date:  2012-10-02       Impact factor: 8.947

8.  Identification of cell-penetrating peptides that are bactericidal to Neisseria meningitidis and prevent inflammatory responses upon infection.

Authors:  Olaspers Sara Eriksson; Miriam Geörg; Hong Sjölinder; Rannar Sillard; Staffan Lindberg; Ulo Langel; Ann-Beth Jonsson
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9.  Bioreducible polypeptide containing cell-penetrating sequence for efficient gene delivery.

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Journal:  Pharm Res       Date:  2013-04-19       Impact factor: 4.200

Review 10.  Stable RNA nanoparticles as potential new generation drugs for cancer therapy.

Authors:  Yi Shu; Fengmei Pi; Ashwani Sharma; Mehdi Rajabi; Farzin Haque; Dan Shu; Markos Leggas; B Mark Evers; Peixuan Guo
Journal:  Adv Drug Deliv Rev       Date:  2013-11-22       Impact factor: 15.470
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