| Title | Fibronectin-mediated endothelialisation of chitosan porous matrices |
| Publication Type | Journal Article |
| 2009 |
| Authors | Amaral, IF, Unger, RE, Fuchs, S, Mendonça, AM, Sousa, SR, Barbosa, MA, Pêgo, AP, Kirkpatrick, CJ |
| Journal | BiomaterialsBiomaterials |
| Volume | 30 |
| Issue | 29 |
| Pagination | 5465 - 5475 |
| Date Published | 2009/// |
| 01429612 (ISSN) |
| Acetylation, Adhesion, Adsorption, angiogenesis, article, Biocompatible Materials, Blood vessel prostheses, cell adhesion, Cell culture, cell invasion, Cell Line, Cell lines, Cell membranes, Cell number, cell proliferation, Cell size, cell spreading, cell survival, Cell-binding domain, Chitin, Chitin/chitosan, chitosan, colony formation, controlled study, Degrees of acetylation, Electric conductivity measurement, Electric currents, Endothelial cell, Endothelial Cells, Endothelialisation, endothelium, endothelium cell, epithelization, Fibronectin, Fibronectins, human, human cell, Human microvascular endothelial cells, Humans, immunofluorescence test, Key parameters, Labels, materials testing, Matrix algebra, Neovascularization, Physiologic, phenotype, porosity, Porous matrixs, priority journal, Protein adsorption, Protein layers, Scaffold, Scaffolds, Self assembly, Tissue engineering, tissue scaffold, umbilical vein |
| Chitosan (Ch) porous matrices were investigated regarding their ability to be colonized by human microvascular endothelial cells (HPMEC-ST1.6R cell line) and macrovascular endothelial cells namely HUVECs. Specifically we assessed if previous incubation of Ch in a fibronectin (FN) solution was effective in promoting endothelial cell (EC) adhesion to Ch matrices with different degrees of acetylation (DAs). Upon FN physiadsorption, marked differences were found between the two DAs investigated, namely DA 4% and 15%. While cell adhesion was impaired on Ch with DA 15%, ECs were able to not only adhere to Ch with DA 4%, but also to spread and colonize the scaffolds, with retention of the EC phenotype and angiogenic potential. To explain the observed differences between the two DAs, protein adsorption studies using 125I-FN and immunofluorescent labelling of FN cell-binding domains were carried out. In agreement with the higher cell numbers found, scaffolds with DA 4% revealed a higher number of exposed FN cell-binding domains as well as greater ability to adsorb FN and to retain and exchange adsorbed FN in the presence of competitive proteins. These findings suggest that the DA is a key parameter modulating EC adhesion to FN-coated Ch by influencing the adsorbed protein layer. © 2009 Elsevier Ltd. All rights reserved.
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