Advanced search
Publication Cover
Expert Opinion on Drug Delivery Volume 10, 2013 - Issue 1
Submit an article Journal homepage
546
Views
57
CrossRef citations to date
0
Altmetric
Reviews

Red blood cells and polyelectrolyte multilayer capsules: natural carriers versus polymer-based drug delivery vehicles

Tatiana A KolesnikovaMax-Planck Institute of Colloids and Interfaces, Department of Interfaces, Golm/Potsdam, D14476, Germany+49 3315679200; +49 3315679202; [email protected]
,
Andre G SkirtachGhent University, Department of Molecular Biotechnology and NB (Nano-Bio) Photonics, Ghent 9000, Belgium;Ghent University, Department of Molecular Biotechnology and NB (Nano-Bio) Photonics, Ghent 9000, Belgium
&
Helmuth MöhwaldMax-Planck Institute of Colloids and Interfaces, Department of Interfaces, Golm/Potsdam, D14476, Germany+49 3315679200; +49 3315679202; [email protected]
Pages 47-58 | Published online: 18 Oct 2012

Bibliography

  • Yoo JW, Irvine DJ, Discher DE, Mitragotri S. Bio-inspired, bioengineered and biomimetic drug delivery carriers. Nat Rev Drug Disc 2011;10:521-35
  • Laga R, Carlisle R, Tangney M, Polymer coatings for delivery of nucleic acid therapeutics. J Control Release 2012;161:537-53
  • Lockney D, Franzen S, Lommel S. Viruses as nanomaterials for drug delivery. Methods Mol Biol 2011;726:207-21
  • Ma Y, Nolte RJM, Cornelissen JJLM. Virus-based nanocarriers for drug delivery. Adv Drug Deliv Rev 2012;64(9):811-25
  • Magnani M. Erythrocyte Engineering for Drug Delivery and Targeting. Landes Bioscience/Eurekah.com & Kluwer Academic/Plenum Publishers; New York, USA: 2003
  • Muzykantov VR. Drug delivery by red blood cells: vascular carriers designed by mother nature. Expert Opin Drug Deliv 2010;7:403-27
  • Peer D. Immunotoxicity derived from manipulating leukocytes with lipid-based nanoparticles. Adv Drug Deliv Rev 2012; In Press
  • Porada CD, Almeida-Porada G. Mesenchymal stem cells as therapeutics and vehicles for gene and drug delivery. Adv Drug Deliv Rev 2010;62(12):1156-66
  • Xiang J, Tang J, Song C, Mesenchymal stem cells as a gene therapy carrier for treatment of fibrosarcoma. Cytotherapy 2009;11:516-26
  • Bochot A, Fattal E. Liposomes for intravitreal drug delivery: a state of the art. J Control Release 2012;161:628-34
  • Lee KU, Yuk SH. Polymeric protein delivery systems. Prog Polym Sci 2007;32:669-97
  • Oerlemans C, Bult W, Bos M, Polymeric micelles in anticancer therapy: targeting, imaging and triggered release. Pharm Res 2010;27:2569-89
  • Gaucher G, Satturwar P, Jones MC, Polymeric micelles for oral drug deli very. Eur J Pharm Biopharm 2010;76:147-58
  • Wohl BM, Engbersen JFJ. Responsive layer-by-layer materials for drug delivery. J Control Release 2012;158(1):2-14
  • De Koker S, Hoogenboom R, De Geest BG. Polymeric multilayer capsules for drug delivery. Chem Soc Rev 2012;41:2867-84
  • Ariga K, Ji Q, Richards GJ, Soft capsules, hard capsules, and hybrid capsules. Soft Mater 2012;10:387-412
  • Rogers TL, Wallick D. Reviewing the use of ethylcellulose, methylcellulose and hypromellose in microencapsulation. Part 1: materials used to formulate microcapsules. Drug Dev Ind Pharm 2012;38:129-57
  • Quadir MA, Haag R. Biofunctional nanosystems based on dendritic polymers. J Control Release 2012;161(2):484-95
  • Censi R, Di Martino P, Vermonden T, Hydrogels for protein delivery in tissue engineering. J Control Release 2012;161:680-92
  • Lee JS, Feijen J. Polymersomes for drug delivery: design, formation and characterization. J Control Release 2012;161(2):473-83
  • Ariga K, Ji Q, McShane MJ, Inorganic Nanoarchitectonics for biological applications. Chem Mater 2012;24:728-37
  • Mahfoozur R, Mohammad Zaki A, Imran K, Advancement in multifunctional nanoparticles for the effective treatment of cancer. Expert Opin Drug Deliv 2012;9:367-81
  • De Loach JR. Carrier erythrocytes. Med Res Rev 1986;6:487-504
  • Hamidi M, Tajerzadeh H. Carrier erythrocytes: an overview. Drug Deliv 2003;10(1):9-20
  • Rossi L, Serafini S, Pierigé F, Erythrocyte-based drug delivery. Expert Opin Drug Deliv 2005;2:311-22
  • Pierige F, Serafini S, Rossi L, Magnani A. Cell-based drug delivery. Adv Drug Deliv Rev 2008;60:286-95
  • Alpar H, Lewis DA. The prolongation of the survival times of mice implanted with TLX5 cells by treatment with methotrexate encapsulated in erythrocytes. Biochem Pharmacol 1987;36:3081-3
  • Magnani M, Rossi L, Fraternale A, Erythrocyte-mediated delivery of drugs, peptides and modified oligonucleotides. Gene Ther 2002;9:749-51
  • Staedtke V, Brähler M, Müller A, In vitro inhibition of fungal activity by macrophage-mediated sequestration and release of encapsulated Amphotericin B nanosupension in red blood cells. Small 2010;6:96-103
  • Muzykantov VR, Taylor RP. Attachment of biotinylated antibody to red blood cells: antigen-binding capacity of immunoerythrocytes and their susceptibility to lysis by complement. Anal Biochem 1994;223(1):142-8
  • Muzykantov VR, Murciano JC, Taylor RP, Regulation of the complement-mediated elimination of red blood cells modified with biotin and streptavidin. Anal Biochem 1996;241:109-19
  • Allen TM. Ligand-targeted therapeutics in anticancer therapy. Nat Rev Cancer 2002;2:750-63
  • Sternberg N, Georgieva R, Duft K, Surface-modified loaded human red blood cells for targeting and delivery of drugs. J Microencapsul 2012;29(1):9-20
  • Zaitsev S, Kowalska MA, Neyman M, Targeting recombinant thrombomodulin fusion protein to red blood cells provides multifaceted thromboprophylaxis. Blood 2012;119(20):4779-85
  • Brähler M, Georgieva R, Buske N, Magnetite-loaded carrier erythrocytes as contrast agents for magnetic resonance imaging. Nano Lett 2006;6:2505-9
  • Markov DE, Boeve H, Gleich B, Human erythrocytes as nanoparticle carriers for magnetic particle imaging. Phys Med Biol 2010;55:6461-73
  • Chanana M, Jahn S, Georgieva R, Fabrication of colloidal stable, thermosensitive, and biocompatible magnetite nanoparticles and study of their reversible agglomeration in aqueous milieu. Chem Mater 2009;21:1906-14
  • Ahn S, Jung SY, Seo E, Gold nanoparticle-incorporated human red blood cells (RBCs) for X-Ray dynamic imaging. Biomaterials 2011;32:7191-9
  • Delcea M, Sternberg N, Yashchenok AM, Nanoplasmonics for dual-molecule release through nanopores in the membrane of red blood cells. ACS Nano 2012;6(5):4169-80
  • Lasic DD. Liposomes: from physics to applications. University of Michigan Press; Elsevier, USA: 1993
  • Torchilin VP, Trubetskoy VS. Which polymers can make nanoparticulate drug carriers long-circulating? Adv Drug Deliv Rev 1995;16:141-55
  • Ohsawa T, Miura H, Harada K. A novel method for preparing liposome with a high capacity to encapsulate proteinous drugs: freeze-drying method. Chem Pharm Bull 1984;32:2442-5
  • Torchilin VP, Narula J, Halpern E, Poly(ethylene glycol)-coated anti-cardiac anti-cardiac myosin immunoliposomes – factors influencing targeted accumulation in the infarcted myocardium. Biochim Biophys Acta 1996;1279:75-83
  • Killion JJ, Fidler IJ. Systemic targeting of liposome encapsulated immunomodulators to macrophages for treatment of cancer metastasis. Immunomethods 1994;4:273-9
  • Grüll H, Langereis S. Hyperthermia-triggered drug delivery from temperature-sensitive liposomes using MRI-guided high intensity focused ultrasound. J Control Release 2012;161(2):317-27
  • Kaur R, Bramwell VW, Kirby DJ, Pegylation of DDA:TDB liposomal adjuvants reduces the vaccine depot effect and alters the Th1/Th2 immune responses. J Control Release 2012;158:72-7
  • Yahya R, Hamed H. Liposomes in cosmeceutics. Expert Opin Drug Deliv 2012;9(4):443-55
  • Discher DE, Ahmed F. Polymersomes. Annu Rev Biomed Eng 2006;8:323-41
  • Donath E, Moya S, Neu B, Hollow polymer shells from biological templates: fabrication and potential applications. Chem Eur J 2002;8(23):5481-5
  • Georgieva R, Moya S, Donath E, Permeability and conductivity of red blood cell templated polyelectrolyte capsules coated with supplementary layers. Langmuir 2004;20:1895-900
  • Kreft O, Georgieva R, Bäumler H, Red blood cell templated polyelectrolyte capsules: a novel vehicle for the stable encapsulation of DNA and proteins. Macromol Rapid Commun 2006;27:435-40
  • Evans WH, Graham JM. Membrane structure and function. Oxford University Press; Oxford, England: 1989
  • Stein WD. Channels, carriers and pumps: an introduction to membrane transport. Academic Press, Inc; New York, USA: 1990
  • Chambers E, Mitragoni S. Prolonged circulation of large polymeric nanoparticles by non-covalent adsorption on erythrocytes. J Control Release 2004;100:111-19
  • Lukianova-Hleb EY, Oginsky AO, Olson JS, Short laser pulse-induced irreversible photothermal effects in red blood cells. Lasers Surg Med 2011;43:249-60
  • Cevc G. Lipid vesicles and other colloids as drug carriers on the skin. Adv Drug Deliv Rev 2004;56:675-711
  • Cevc G. Drug delivery across the skin. Expert Opin Investig Drugs 1997;6(12):1887-937
  • Sukhorukov GB, Rogach AL, Garstka M, Multifunctionalized polymer microcapsules: novel tools for biological and pharmacological applications. Small 2007;3:944-55
  • Becker AL, Johnston APRJ, Caruso F. Polymeric microcapsules and their biomedical applications. Small 2010;6:1836-52
  • Khopade AJ, Caruso F. Stepwise self-assembled poly(amidoamine) dendrimer and poly(styrenesulfonate) microcapsules as sustained delivery vehicles. Biomacromolecules 2002;3:1154-62
  • Vinogradova OI, Lebedeva OV, Vasilev K, Multilayer DNA/poly (allylamine hydrochloride) microcapsules: assembly and mechanical properties. Biomacromology 2005;6:1495-502
  • Kotov NA, Dekany I, Fendler JH. Layer-by-layer self-assembly of polyelectrolyte-semiconductor nanoparticle composite. J Phys Chem 1995;99:13065-9
  • Gaponik N, Radtchenko IL, Sukhorukov GB, Toward encoding combinatorial libraries: charge-driven microencapsulation of semiconductor nanocrystals luminescing in the visible and near IR. Adv Mater 2002;14(12):879-82
  • Skirtach AG, Dejugnat C, Braun D, The role of metal nanoparticles in remote release of encapsulated materials. Nano Lett 2005;5:1371-7
  • Angelatos AS, Radt B, Caruso F. Light-responsive polyelectrolyte/gold nanoparticle microcapsules. J Phys Chem B 2005;109:3071-6
  • De Geest BG, Skirtach AG, De Beer TRM, Stimuli-responsive multilayered hybrid nanoparticle/polyelectrolyte capsules. Macromol Rapid Commun 2007;28:88-95
  • Bedard MF, Braun D, Sukhorukov GB, Toward self-assembly of nanoparticles on polymeric microshells: near-IR release and permeability. ACS Nano 2008;2(9):1807-16
  • Andreeva DV, Gorin DA, Shchukin DG, Magnetic microcapsules with low permeable polypyrrole skin layer. Macromol Rapid Commun 2006;27:931-6
  • Gorin DA, Portnov SA, Inozemtseva OA, Magnetic/gold nanoparticle functionalized biocompatible microcapsules with sensitivity to laser irradiation. Phys Chem Chem Phys 2008;10:6899-905
  • Parakhonskiy BV, Bedard MF, Bukreeva TV, Nanoparticles on polyelectrolytes at low concentration: controlling concentration and size. J Phys Chem C 2010;114(5):1996-2002
  • Yashchenok AM, Bratashov DN, Gorin DA, Carbon nanotubes on polymeric microcapsules: free-standing structures and point-wise laser openings. Adv Funct Mater 2010;20:3136-42
  • Kolesnikova TA, Gorin DA, Fernandes P, Nanocomposite microcontainers with high ultrasound sensitivity. Adv Funct Mater 2010;20:1189-95
  • Sukhorukov GB, Rogach AL, Zebli B, Nanoengineered polymer capsules: tools for detection, controlled delivery, and site-specific manipulation. Small 2005;1(2):194-200
  • Gil PR, del Mercato LL, del Pino P. Nanoparticle-modified polyelectrolyte capsules. Nano Today 2008;3(3-4):12-21
  • Delcea M, Möhwald H, Skirtach AG. Stimuli-responsive LbL capsules and nanoshells for drug delivery. Adv Drug Deliv Rev 2011;63:730-47
  • Dubas ST, Schlenoff JB. Polyelectrolyte multilayers containing a weak polyacid: construction and deconstruction. Macromolecules 2001;34:3736-40
  • Mauser T, Dejugnat C, Sukhorukov GB. Reversible pH-dependent properties of multilayer microcapsules made of weak polyelectrolytes. Macromol Rapid Commun 2004;25:1781-5
  • Munoz-Javier A, Kreft O, Semmling M, Uptake of polyelectrolyte multilayer capsules. Adv Mater 2008;20:4281-7
  • Bédard MF, Munoz-Javier A, Mueller R, On the mechanical stability of polymeric microcontainers functionalized with nanoparticles. Soft Matter 2009;5:148-55
  • Fery A, Weinkamer R. Mechanical properties of micro- and nanocapsules: single-capsule measurements. Polymer (Guildf) 2007;48:7221-35
  • Fernandes PAL, Delcea M, Skirtach AG, Quantification of release from polymeric microcapsules by AFM. Soft Matter 2010;6:1879-83
  • Delcea M, Schmidt S, Palankar R, Mechanobiology: correlation between mechanical properties of microcapsules studied by AFM and impact of cell-induced stresses. Small 2010;6:2858-62
  • Skirtach AG, Yashchenok AM, Möhwald H. Encapsulation, release and applications of LbL polyelectrolyte multilayer capsules. Chem Commun 2011;47:12736-46
  • Esser-Kahn AP, Odom SA, Sottos NR, Triggered release from polymer capsules. Macromolecules 2011;44:5539-53
  • Ochs CJ, Such GK, Caruso F. Modular assembly of layer-by-layer capsules with tailored degradation profiles. Langmuir 2011;27:1275-80
  • Marchenko I, Yashchenok A, Borodina T, Controlled enzyme-catalyzed degradation of polymeric capsules templated on CaCO3: influence of the number of LbL layers, conditions of degradation, and disassembly of multicompartments. J Control Release 2012;162:599-605
  • Skirtach AG, Munoz-Javier A, Kreft O, Laser-induced release of encapsulated materials inside living cells. Angew Chem Int Ed 2006;l45:4612-33
  • Munoz-Javier A, del Pino P, Bedard MF, Photoactivated release of cargo from the cavity of polyelectrolyte capsules to the cytosol of cells. Langmuir 2008;24:12517-20
  • Bedard MF, Sadasivan S, Sukhorukov GB, Assembling polyelectrolytes and porphyrins into hollow capsules with laser-responsive oxidative properties. J Mater Chem 2009;19:2226-33
  • Palankar R, Skirtach AG, Kreft O, Controlled intracellular release of peptides from microcapsules enhances antigen presentation on MHC Class I molecules. Small 2009;5:2168-76
  • Yu J, Javier D, Yaseen MA, Self-assembly synthesis, tumor cell targeting, and photothermal capabilities of antibody-coated indocyanine green nanocapsules. J Am Chem Soc 2010;132:1929-38
  • Derycke ASL, de Witte PAM. Liposomes for photodynamic therapy. Adv Drug Deliv Rev 2004;56:17-30
  • Cortez C, Tomaskovic-Crook E, Johnston APR, Targeting and uptake of multilayered particles to colorectal cancer cells. Adv Mater 2006;18:1998-2003
  • Yan Y, Johnston APR, Dodds SJ, Uptake and intracellular fate of disulfide-bonded polymer hydrogel capsules for doxorubicin delivery to colorectal cancer cells. ACS Nano 2010;4:2928-36
  • Stadler B, Chandrawati R, Price AD, A microreactor with thousands of subcompartments: enzyme-loaded liposomes within polymer capsules. Angew Chem Int Ed 2009;48:4359-62
  • Delcea M, Yashchenok A, Videnova K, Multicompartment micro- and nanocapsules: hierarchy and applications in biosciences. Macromol Biosci 2010;10:465-74
  • de Hoog HPM, Nallani M, Tomczak N. Self-assembled architectures with multiple aqueous compartments. Soft Matter 2012;8:4552-61
  • Bai JH, Beyer S, Mak WC, Inwards buildup of concentric polymer layers: a method for biomolecule encapsulation and microcapsule encoding. Angew Chem Int Ed 2010;49:5189-93
  • Delcea M, Madaboosi N, Yashchenok AM, Anisotropic multicompartment micro- and nano-capsules produced via embedding into biocompatible PLL/HA films. Chem Commun 2011;47:2098-100
  • Kohler D, Madaboosi N, Delcea M, Patchiness of embedded particles and film stiffness control through concentration of gold nanoparticles. Adv Mater 2012;24:1095-100
  • Shchepelina O, Kozlovskaya V, Kharlampieva E, Anisotropic micro- and nano-capsules. Macromol Rapid Commun 2010;31:2041-6
  • Chen RT, Muir BW, Such GK, Fabrication of asymmetric "Janus'' particles via plasma polymerization. Chem Commun 2010;46:5121-3
  • Kozlovskaya V, Higgins W, Chen J, Switching shape of hollow layer-by-layer hydrogel microcontainers. Chem Commun 2011;47(29):8352-4
  • Ariga K, Ji QM, Hill JP. Enzyme-encapsulated layer-by-layer assemblies: current status and challenges toward ultimate nanodevices. Adv Polym Sci 2010;229:51-87
  • Yashchenok AM, Delcea M, Videnova K, Enzyme reaction in the pores of CaCO3 particles upon ultrasound disruption of attached substrate-filled liposomes. Angew Chem Int Ed 2010;49:8116-20
  • Bäumler H, Georgieva R. Coupled enzyme reactions in multicompartment microparticles. Biomacromolecules 2010;11:1480-7

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.