Polyelectrolyte multilayer film modification for chemo-mechano-regulation of endothelial cell response

The new multilayer polyelectrolyte films (PEMs) that are able to simulate the structure and functions of the extracellular matrix have become a powerful tool for tailoring biointerfaces of implants. In this study, bioactive PEM coatings have been investigated as a supportive system for efficient end...

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Published in	RSC advances Vol. 6; no. 11; pp. 8811 - 8828
Main Authors	Mzyk, A, Lackner, J. M, Wilczek, P, Lipi ska, L, Niemiec-Cyganek, A, Samotus, A, Morenc, M
Format	Journal Article
Language	English
Published	01.01.2016
Subjects	Biomaterials Coatings Endothelial cells In vitro testing Mechanical properties Multilayers Polyelectrolytes Surgical implants
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Abstract	The new multilayer polyelectrolyte films (PEMs) that are able to simulate the structure and functions of the extracellular matrix have become a powerful tool for tailoring biointerfaces of implants. In this study, bioactive PEM coatings have been investigated as a supportive system for efficient endothelialization of cardiovascular implants. The modern films were designed in a manner that allows one to potentially induce specific response from the tissues surrounding the biomaterial due to its chemical composition as well as mechanical properties. The PEM rigidity was regulated by the cross-linking chemistry as well as nanoparticle incorporation, while biochemical modification was performed by the VEGF adsorption within coatings. Obtained results have shown that PEM/VEGF films enhanced in vitro spreading and proliferation of endothelial cells, whereas VEGF presence inhibited IL-6 production and release. Since non-functionalized films also contributed to proliferation of endothelial cells and cytokine secretion, it may be supposed that PEM stiffness acts in synergy with the growth factor, but probably through a different pathway. Results clearly demonstrate the effectiveness of the proposed endothelialization strategy and confirm correlation between the chemical and mechanical properties of the PEMs in vitro . The new multilayer polyelectrolyte films (PEMs) that are able to simulate the structure and functions of the extracellular matrix have become a powerful tool for tailoring biointerfaces of "cardiovascular" implants.
AbstractList	The new multilayer polyelectrolyte films (PEMs) that are able to simulate the structure and functions of the extracellular matrix have become a powerful tool for tailoring biointerfaces of implants. In this study, bioactive PEM coatings have been investigated as a supportive system for efficient endothelialization of cardiovascular implants. The modern films were designed in a manner that allows one to potentially induce specific response from the tissues surrounding the biomaterial due to its chemical composition as well as mechanical properties. The PEM rigidity was regulated by the cross-linking chemistry as well as nanoparticle incorporation, while biochemical modification was performed by the VEGF adsorption within coatings. Obtained results have shown that PEM/VEGF films enhanced in vitro spreading and proliferation of endothelial cells, whereas VEGF presence inhibited IL-6 production and release. Since non-functionalized films also contributed to proliferation of endothelial cells and cytokine secretion, it may be supposed that PEM stiffness acts in synergy with the growth factor, but probably through a different pathway. Results clearly demonstrate the effectiveness of the proposed endothelialization strategy and confirm correlation between the chemical and mechanical properties of the PEMs in vitro . The new multilayer polyelectrolyte films (PEMs) that are able to simulate the structure and functions of the extracellular matrix have become a powerful tool for tailoring biointerfaces of "cardiovascular" implants. The new multilayer polyelectrolyte films (PEMs) that are able to simulate the structure and functions of the extracellular matrix have become a powerful tool for tailoring biointerfaces of implants. In this study, bioactive PEM coatings have been investigated as a supportive system for efficient endothelialization of cardiovascular implants. The modern films were designed in a manner that allows one to potentially induce specific response from the tissues surrounding the biomaterial due to its chemical composition as well as mechanical properties. The PEM rigidity was regulated by the cross-linking chemistry as well as nanoparticle incorporation, while biochemical modification was performed by the VEGF adsorption within coatings. Obtained results have shown that PEM/VEGF films enhanced in vitro spreading and proliferation of endothelial cells, whereas VEGF presence inhibited IL-6 production and release. Since non-functionalized films also contributed to proliferation of endothelial cells and cytokine secretion, it may be supposed that PEM stiffness acts in synergy with the growth factor, but probably through a different pathway. Results clearly demonstrate the effectiveness of the proposed endothelialization strategy and confirm correlation between the chemical and mechanical properties of the PEMs in vitro. The new multilayer polyelectrolyte films (PEMs) that are able to simulate the structure and functions of the extracellular matrix have become a powerful tool for tailoring biointerfaces of implants. In this study, bioactive PEM coatings have been investigated as a supportive system for efficient endothelialization of cardiovascular implants. The modern films were designed in a manner that allows one to potentially induce specific response from the tissues surrounding the biomaterial due to its chemical composition as well as mechanical properties. The PEM rigidity was regulated by the cross-linking chemistry as well as nanoparticle incorporation, while biochemical modification was performed by the VEGF adsorption within coatings. Obtained results have shown that PEM/VEGF films enhanced in vitro spreading and proliferation of endothelial cells, whereas VEGF presence inhibited IL-6 production and release. Since non-functionalized films also contributed to proliferation of endothelial cells and cytokine secretion, it may be supposed that PEM stiffness acts in synergy with the growth factor, but probably through a different pathway. Results clearly demonstrate the effectiveness of the proposed endothelialization strategy and confirm correlation between the chemical and mechanical properties of the PEMs in vitro .
Author	Niemiec-Cyganek, A Samotus, A Mzyk, A Lackner, J. M Wilczek, P Lipi ska, L Morenc, M
AuthorAffiliation	Functional Surfaces Joanneum Research Forschungsges mbH Foundation for Cardiac Surgery Development Institute of Surface Technologies and Photonics Institute of Metallurgy and Materials Science Institute of Electronic Materials Technology Polish Academy of Sciences
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CitedBy_id	crossref_primary_10_3390_nano12122054 crossref_primary_10_1016_j_apsadv_2021_100091 crossref_primary_10_3390_mi11090797 crossref_primary_10_1016_j_progpolymsci_2019_02_004 crossref_primary_10_3390_nano10050859 crossref_primary_10_3390_polym12091949 crossref_primary_10_1016_j_colsurfb_2023_113269 crossref_primary_10_3390_nano11102502 crossref_primary_10_1049_trit_2018_0004 crossref_primary_10_3390_coatings10111131
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Snippet	The new multilayer polyelectrolyte films (PEMs) that are able to simulate the structure and functions of the extracellular matrix have become a powerful tool...
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SubjectTerms	Biomaterials Coatings Endothelial cells In vitro testing Mechanical properties Multilayers Polyelectrolytes Surgical implants
Title	Polyelectrolyte multilayer film modification for chemo-mechano-regulation of endothelial cell response
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