PEO-b-PPO star-shaped polymers enhance the structural stability of electrostatically coupled liposome/polyelectrolyte complexes

We propose a strategy to counteract the salt-driven disassembly of multiliposomal complexes made by electrostatic co-assembly of anionic small unilamellar liposomes and cationic star-shaped polyelectrolytes (made of quaternized poly(dimethylaminoethyl methacrylate) (qPDMAEMA(100))(3.1)). The combine...

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Autores principales: Pinguet, Camille E., Ryll, Esther, Steinschulte, Alexander A., Hoffmann, Jón M., Brugnoni, Monia, Sybachin, Andrey, Wöll, Dominik, Yaroslavov, Alexander, Richtering, Walter, Plamper, Felix A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2019
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6336312/
https://www.ncbi.nlm.nih.gov/pubmed/30653618
http://dx.doi.org/10.1371/journal.pone.0210898
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author Pinguet, Camille E.
Ryll, Esther
Steinschulte, Alexander A.
Hoffmann, Jón M.
Brugnoni, Monia
Sybachin, Andrey
Wöll, Dominik
Yaroslavov, Alexander
Richtering, Walter
Plamper, Felix A.
author_facet Pinguet, Camille E.
Ryll, Esther
Steinschulte, Alexander A.
Hoffmann, Jón M.
Brugnoni, Monia
Sybachin, Andrey
Wöll, Dominik
Yaroslavov, Alexander
Richtering, Walter
Plamper, Felix A.
author_sort Pinguet, Camille E.
collection PubMed
description We propose a strategy to counteract the salt-driven disassembly of multiliposomal complexes made by electrostatic co-assembly of anionic small unilamellar liposomes and cationic star-shaped polyelectrolytes (made of quaternized poly(dimethylaminoethyl methacrylate) (qPDMAEMA(100))(3.1)). The combined action of (qPDMAEMA(100))(3.1) and a nonionic star-shaped polymer (PEO(12)-b-PPO(45))(4), which comprises diblock copolymer arms uniting a poly(ethylene oxide) PEO inner block and a poly(propylene oxide) PPO terminal block, leads to a stabilization of these complexes against disintegration in saline solutions. Hereby, the anchoring of the PPO terminal blocks to the lipid bilayer and the bridging between several liposomes are at the origin of the promoted structural stability. Two-focus fluorescence correlation spectroscopy verifies the formation of multiliposomal complexes with (PEO(12)-b-PPO(45))(4). The polyelectrolyte and the amphiphilic polymer work synergistically, as the joint action still assures some membrane integrity, which is not seen for the mere (PEO(12)-b-PPO(45))(4)—liposome interaction alone.
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spelling pubmed-63363122019-01-30 PEO-b-PPO star-shaped polymers enhance the structural stability of electrostatically coupled liposome/polyelectrolyte complexes Pinguet, Camille E. Ryll, Esther Steinschulte, Alexander A. Hoffmann, Jón M. Brugnoni, Monia Sybachin, Andrey Wöll, Dominik Yaroslavov, Alexander Richtering, Walter Plamper, Felix A. PLoS One Research Article We propose a strategy to counteract the salt-driven disassembly of multiliposomal complexes made by electrostatic co-assembly of anionic small unilamellar liposomes and cationic star-shaped polyelectrolytes (made of quaternized poly(dimethylaminoethyl methacrylate) (qPDMAEMA(100))(3.1)). The combined action of (qPDMAEMA(100))(3.1) and a nonionic star-shaped polymer (PEO(12)-b-PPO(45))(4), which comprises diblock copolymer arms uniting a poly(ethylene oxide) PEO inner block and a poly(propylene oxide) PPO terminal block, leads to a stabilization of these complexes against disintegration in saline solutions. Hereby, the anchoring of the PPO terminal blocks to the lipid bilayer and the bridging between several liposomes are at the origin of the promoted structural stability. Two-focus fluorescence correlation spectroscopy verifies the formation of multiliposomal complexes with (PEO(12)-b-PPO(45))(4). The polyelectrolyte and the amphiphilic polymer work synergistically, as the joint action still assures some membrane integrity, which is not seen for the mere (PEO(12)-b-PPO(45))(4)—liposome interaction alone. Public Library of Science 2019-01-17 /pmc/articles/PMC6336312/ /pubmed/30653618 http://dx.doi.org/10.1371/journal.pone.0210898 Text en © 2019 Pinguet et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Pinguet, Camille E.
Ryll, Esther
Steinschulte, Alexander A.
Hoffmann, Jón M.
Brugnoni, Monia
Sybachin, Andrey
Wöll, Dominik
Yaroslavov, Alexander
Richtering, Walter
Plamper, Felix A.
PEO-b-PPO star-shaped polymers enhance the structural stability of electrostatically coupled liposome/polyelectrolyte complexes
title PEO-b-PPO star-shaped polymers enhance the structural stability of electrostatically coupled liposome/polyelectrolyte complexes
title_full PEO-b-PPO star-shaped polymers enhance the structural stability of electrostatically coupled liposome/polyelectrolyte complexes
title_fullStr PEO-b-PPO star-shaped polymers enhance the structural stability of electrostatically coupled liposome/polyelectrolyte complexes
title_full_unstemmed PEO-b-PPO star-shaped polymers enhance the structural stability of electrostatically coupled liposome/polyelectrolyte complexes
title_short PEO-b-PPO star-shaped polymers enhance the structural stability of electrostatically coupled liposome/polyelectrolyte complexes
title_sort peo-b-ppo star-shaped polymers enhance the structural stability of electrostatically coupled liposome/polyelectrolyte complexes
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6336312/
https://www.ncbi.nlm.nih.gov/pubmed/30653618
http://dx.doi.org/10.1371/journal.pone.0210898
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