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Therapeutic Delivery Volume 2, 2011 - Issue 8
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Research Article

Screening of siRNA Nanoparticles for Delivery to Airway Epithelial Cells Using high-content Analysis

Alan Hibbitts1 School of Pharmacy Royal College of Surgeons in IrelandDublin2Ireland
,
Nora Lieggi2 Veterinary Science Centre University College DublinBelfieldDublin4Ireland
,
Olive McCabe3 RCSI Education & Research Centre or Royal College of Surgeons in Ireland Education and Research Centre Beaumont HospitalDublin9Ireland
,
Warren Thomas3 RCSI Education & Research Centre or Royal College of Surgeons in Ireland Education and Research Centre Beaumont HospitalDublin9Ireland
,
James Barlow1 School of Pharmacy Royal College of Surgeons in IrelandDublin2Ireland;4 Department of Pharmaceutical & Medicinal Chemistry Royal College of Surgeons in IrelandDublin2Ireland
,
Fiona O‘Brien1 School of Pharmacy Royal College of Surgeons in IrelandDublin2Ireland
&
Sally-Ann Cryan1 School of Pharmacy Royal College of Surgeons in IrelandDublin2Ireland;5 [email protected]
 show all
Pages 987-999 | Published online: 31 Aug 2011

Bibliography

  • Elbashir SM , LendeckelW, TuschlT. RNA interference is mediated by 21- and 22-nucleotide RNAs. Genes Dev.15(2), 188–200 (2001).
  • Godbey WT , MikosAG. Recent progress in gene delivery using non-viral transfer complexes. J. Control. Release72(1–3), 115–125 (2001).
  • Li P , NijhawanD, BudihardjoIet al. Cytochrome C and dATP-dependent formation of Apaf-1/caspase-9 complex initiates an apoptotic protease cascade. Cell 91(4), 479–489 (1997).
  • Green DR , ReedJC. Mitochondria and apoptosis. Science281(5381), 1309–1312 (1998).
  • Li CX , ParkerA, MenocalE, XiangS, BorodyanskyL, FruehaufJH. Delivery of RNA interference. Cell Cycle5(18), 2103–2109 (2006).
  • Chiu YL , AliA, ChuCY, CaoH, RanaTM. Visualizing a correlation between siRNA localization, cellular uptake, and RNAi in living cells. Chem. Biol.11(8), 1165–1175 (2004).
  • Kim SH , MokH, JeongJH, KimSW, ParkTG. Comparative evaluation of target-specific GFP gene silencing efficiencies for antisense ODN, synthetic siRNA, and siRNA plasmid complexed with PEI–PEG-FOL conjugate. Bioconjug. Chem.17(1), 241–244 (2006).
  • Hornung V , Guenthner-BillerM, BourquinCet al. Sequence-specific potent induction of IFN-α by short interfering RNA in plasmacytoid dendritic cells through TLR7. Nat. Med. 11(3), 263–270 (2005).
  • De Fougerolles A , NovobrantsevaT. siRNA and the lung: research tool or therapeutic drug? Curr. Opin. Pharmacol.8(3), 280–285 (2008).
  • Birchall J . Pulmonary delivery of nucleic acids. Expert Opin. Drug Deliv.4(6), 575–578 (2007).
  • Weiss DJ . Delivery of DNA to lung airway epithelium. Methods Mol. Biol.246, 53–68 (2004).
  • Sanders N , RudolphC, BraeckmansK, De Smedt SC, Demeester J. Extracellular barriers in respiratory gene therapy. Adv. Drug Deliv. Rev.61(2), 115–127 (2009).
  • Giuliano KA , HaskinsJR, Taylor Dl. Advances in high-content screening for drug discovery. Assay Drug Dev. Technol.1(4), 565–577 (2003).
  • Bertelsen M , SanfridsonA. Inflammatory pathway analysis using a high-content screening platform. Assay Drug Dev. Technol.3(3), 261–271 (2005).
  • Falschlehner C , SteinbrinkS, ErdmannG, BoutrosM. High-throughput RNAi screening to dissect cellular pathways. A how-to guide. Biotechnol. J.5(4), 368–376 (2010).
  • Grimsey NL , NarayanPJ, DragunowM, GlassM. A novel high-throughput assay for the quantitative assessment of receptor trafficking. Clin. Exp. Pharmacol. Physiol.35(11), 1377–1382 (2008).
  • Rawlinson LA , O‘brienPJ, BraydenDJ. High content analysis of cytotoxic effects of pDMAEMA on human intestinal epithelial and monocyte cultures. J. Control. Release146(1), 84–92
  • O‘brien PJ , IrwinW, DiazDet al. High concordance of drug-induced human hepatotoxicity with in vitro cytotoxicity measured in a novel cell-based model using high-content screening. Arch. Toxicol. 80(9), 580–604 (2006).
  • Florea BI , MeaneyC, JungingerHE, BorchardG. Transfection efficiency and toxicity of polyethylenimine in differentiated Calu-3 and nondifferentiated COS-1 cell cultures. AAPS PharmSci.4(3), E12 (2002).
  • Koping-Hoggard M , TubulekasI, GuanHet al. Chitosan as a nonviral gene delivery system. Structure–property relationships and characteristics compared with polyethylenimine in vitro and after lung administration in vivo. Gene Ther. 8(14), 1108–1121 (2001).
  • Suh J , ChoyKL, LaiSKet al. PEGylation of nanoparticles improves their cytoplasmic transport. Int. J. Nanomed. 2(4), 735–741 (2007).
  • Tang B c, Dawson M, Lai Sk et al. Biodegradable polymer nanoparticles that rapidly penetrate the human mucus barrier. Proc. Natl Acad. Sci. USA106(46), 19268–19273 (2009).
  • Beyerle A , MerkelO, StoegerT, KisselT. PEGylation affects cytotoxicity and cell-compatibility of poly(ethylene imine) for lung application. Structure–function relationships. Toxicol. Appl. Pharmacol.242(2), 146–154 (2010).
  • Grainger CI , GreenwellLL, LockleyDJ, MartinGP, ForbesB. Culture of Calu-3 cells at the air interface provides a representative model of the airway epithelial barrier. Pharm. Res.23(7), 1482–1490 (2006).
  • Finkbeiner WE , CarrierSD, TeresiCE. Reverse transcription–polymerase chain reaction (RT-PCR) phenotypic analysis of cell cultures of human tracheal epithelium, tracheobronchial glands, and lung carcinomas. Am. J. Respir. Cell Mol. Biol.9(5), 547–556 (1993).
  • Florea BI , CassaraML, JungingerHE, BorchardG. Drug transport and metabolism characteristics of the human airway epithelial cell line Calu-3. J. Control. Release87(1–3), 131–138 (2003).
  • Johnson-Lyles DN , PeifleyK, LockettSet al. Fullerenol cytotoxicity in kidney cells is associated with cytoskeleton disruption, autophagic vacuole accumulation, and mitochondrial dysfunction. Toxicol. Appl. Pharmacol. 248(3), 249–258
  • Rodriguez-Enriquez S , KimI, CurrinRT, LemastersJJ. Tracker dyes to probe mitochondrial autophagy (mitophagy) in rat hepatocytes. Autophagy2(1), 39–46 (2006).
  • Lee H , JeongJ, LeeJ, ParkT. Enhancing transfection efficiency using polyethylene glycol grafted polyethylenimine and fusogenic peptide. Biotechnol. Bioprocess Engin.6(4), 269–273 (2001).
  • Grayson AC , DoodyAM, PutnamD. Biophysical and structural characterization of polyethylenimine-mediated siRNA delivery in vitro. Pharm. Res.23(8), 1868–1876 (2006).
  • Merkel OM , LibrizziD, PfestroffAet al. Stability of siRNA polyplexes from poly(ethylenimine) and poly(ethylenimine)-g-poly(ethylene glycol) under in vivo conditions: effects on pharmacokinetics and biodistribution measured by fluorescence fluctuation spectroscopy and single photon emission computed tomography (SPECT) imaging. J. Control. Release 138(2), 148–159 (2009).
  • Mao S , NeuM, GermershausOet al. Influence of polyethylene glycol chain length on the physicochemical and biological properties of poly(ethylene imine)-graft-poly(ethylene glycol) block copolymer/siRNA polyplexes. Bioconjug. Chem. 17(5), 1209–1218 (2006).
  • Kleideiter G , NordmeierE. Poly(ethylene glycol)-induced DNA condensation in aqueous/methanol containing low-molecular-weight electrolyte solutions. Theoretical considerations. Polymer40(14), 4013–4023 (1999).
  • Petersen H , FechnerPM, MartinALet al. Polyethylenimine-graft-poly(ethylene glycol) copolymers. influence of copolymer block structure on DNA complexation and biological activities as gene delivery system. Bioconjug. Chem. 13(4), 845–854 (2002).
  • Gunther M , LipkaJ, MalekA, GutschD, KreylingW, AignerA. Polyethylenimines for RNAi-mediated gene targeting in vivo and siRNA delivery to the lung. Eur. J. Pharm. Biopharm.77(3), 438–449
  • Merkel OM , BeyerleA, LibrizziDet al. Nonviral siRNA delivery to the lung. investigation of PEG–PEI polyplexes and their in vivo performance. Mol. Pharm. 6(4), 1246–1260 (2009).
  • Beyerle A , BraunA, MerkelO, KochF, StoegerT, KisselT. Comparative in vivo study of poly(ethylene imine)/siRNA complexes for pulmonary delivery in mice. J. Control. Release151(1), 51–56 (2011).
  • Ward MW , HuberHJ, WeisovaP, DussmannH, NichollsDG, PrehnJH. Mitochondrial and plasma membrane potential of cultured cerebellar neurons during glutamate-induced necrosis, apoptosis, and tolerance. J. Neurosci.27(31), 8238–8249 (2007).
  • Zhang G , DavidA, WiedmannTS. Performance of the vibrating membrane aerosol generation device: Aeroneb micropump nebulizer. J. Aerosol Med.20(4), 408–416 (2007).

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