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Fibronectin distribution on demixed nanoscale topographies

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Fibronectin distribution on demixed nanoscale topographies

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dc.contributor.author Perez Garnes, Manuel es_ES
dc.contributor.author González García, Cristina es_ES
dc.contributor.author Moratal Pérez, David es_ES
dc.contributor.author Rico Tortosa, Patricia María es_ES
dc.contributor.author Salmerón Sánchez, Manuel es_ES
dc.date.accessioned 2013-04-24T10:41:44Z
dc.date.issued 2011-02-04
dc.identifier.issn 0391-3988
dc.identifier.uri http://hdl.handle.net/10251/28173
dc.description.abstract [EN] Purpose: It is known that surface nanotopography influences cell adhesion and differentiation. Our aim is to analyze the effect of nanoscale topography on fibronectin adsorption and, afterwards, on cell adhesion in order to rationalize the cell-material interaction by focusing on the state of the intermediate layer of adsorbed fibronectin at the material interphase. Methods: Nanotopographic surfaces were produced by demixing of thin film polymer blends - PLLA and PS - during a high speed spin-casting process. Fibronectin (FN) was adsorbed on the different nanotopographies and the protein distribution was directly observed by atomic force microscopy (AFM). The fraction of the surface covered by the protein was quantified by image analysis, as well as the distribution of FN between peaks and valleys. Focal adhesion protein -vinculin- was immunostained and quantified by image analysis on the different nanoscale surfaces. Results: Different nanoscale domains were obtained by changing the composition of the system within a height range of 3 nm to 30 nm. FN tends to adsorb on the peaks of nanoisland topographies, especially in compositions that did not enhance cell adhesion. Moreover, protein distribution between valleys and peaks alters the size of focal adhesion plaques, which grew larger on surfaces with an even distribution of fibronectin. Conclusions: Our results suggest that the surface nanotopography is a key material property capable of influencing protein adsorption. Additionally, the distribution of the protein on the different samples was correlated to the initial ability of cells to adhere in terms of the size of the focal plaques. © 2011 Wichtig Editore. es_ES
dc.description.sponsorship This studied was funded by the Spanish Ministry of Science and Innovation through MAT2009-14440-C02-01 and TEC2009-14128 grants. CIBER-BBN is an initiative funded by the VI National R&D&D&i Plan 2008-2011, Iniciativa Ingenio 2010, Consolider Program, CIBER Actions and financed by the Instituto de Salud Carlos III with assistance from the European Regional Development Fund. This work was supported by funds for research in the field of Regenerative Medicine through the collaboration agreement with the Conselleria de Sanidad (Generalitat Valenciana), and the Instituto de Salud Carlos III.
dc.language Español es_ES
dc.publisher Wichtig Editore es_ES
dc.relation.ispartof International Journal of Artificial Organs es_ES
dc.rights Reserva de todos los derechos es_ES
dc.subject Fibronectin es_ES
dc.subject Polymer es_ES
dc.subject Vinculin es_ES
dc.subject Article es_ES
dc.subject Atomic force microscopy es_ES
dc.subject Cell adhesion es_ES
dc.subject Cell differentiation es_ES
dc.subject Cell interaction es_ES
dc.subject Film es_ES
dc.subject Human es_ES
dc.subject Human cell es_ES
dc.subject Image analysis es_ES
dc.subject Immunohistochemistry es_ES
dc.subject Nanoanalysis es_ES
dc.subject Protein localization es_ES
dc.subject Surface nanotopography es_ES
dc.subject Topography es_ES
dc.subject 3T3 Cells es_ES
dc.subject Adsorption es_ES
dc.subject Animals es_ES
dc.subject Fibronectins es_ES
dc.subject Focal Adhesions es_ES
dc.subject Humans es_ES
dc.subject Image Processing, Computer-Assisted es_ES
dc.subject Lactic Acid es_ES
dc.subject Mice es_ES
dc.subject Microscopy, Atomic Force es_ES
dc.subject Nanotechnology es_ES
dc.subject Polymers es_ES
dc.subject Polystyrenes es_ES
dc.subject Surface Properties es_ES
dc.subject Tissue Scaffolds es_ES
dc.subject.classification FISICA APLICADA es_ES
dc.subject.classification TECNOLOGIA ELECTRONICA es_ES
dc.title Fibronectin distribution on demixed nanoscale topographies es_ES
dc.type Artículo es_ES
dc.embargo.lift 10000-01-01
dc.embargo.terms forever es_ES
dc.identifier.doi 10.5301/ijao.2011.6316
dc.relation.projectID info:eu-repo/grantAgreement/MICINN//MAT2009-14440-C02-01/ES/Dinamica De Las Proteinas De La Matriz En La Interfase Celula-Material/ es_ES
dc.relation.projectID info:eu-repo/grantAgreement/MICINN//TEC2009-14128/ES/Analisis Microestructural, Mecanico Y Del Crecimiento Celular En Soportes Macroporosos Para Ingenieria Tisular Osea Mediante Tratamiento De Imagen./
dc.rights.accessRights Cerrado es_ES
dc.contributor.affiliation Universitat Politècnica de València. Departamento de Ingeniería Electrónica - Departament d'Enginyeria Electrònica es_ES
dc.contributor.affiliation Universitat Politècnica de València. Departamento de Física Aplicada - Departament de Física Aplicada es_ES
dc.description.bibliographicCitation Perez Garnes, M.; González García, C.; Moratal Pérez, D.; Rico Tortosa, PM.; Salmerón Sánchez, M. (2011). Fibronectin distribution on demixed nanoscale topographies. International Journal of Artificial Organs. 34(1):54-63. https://doi.org/10.5301/ijao.2011.6316 es_ES
dc.description.accrualMethod S es_ES
dc.relation.publisherversion http://www.artificial-organs.com/article/fibronectin-distribution-on-demixed-nanoscale-topographies-ijao-10-00143 es_ES
dc.description.upvformatpinicio 54 es_ES
dc.description.upvformatpfin 63 es_ES
dc.type.version info:eu repo/semantics/draft es_ES
dc.description.volume 34 es_ES
dc.description.issue 1 es_ES
dc.relation.senia 210680
dc.identifier.pmid 21298616
dc.contributor.funder Ministerio de Ciencia e Innovación


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