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Elastin-like Recombinamer Hydrogels as Platforms for Breast Cancer Modeling

dc.contributor.authorBlanco Fernández, Barbara*
dc.contributor.authorIbañez-Fonseca, A.*
dc.contributor.authorOrbanic, D.*
dc.contributor.authorXimenes-Carballo, C.*
dc.contributor.authorPerez-Amodio, S.*
dc.contributor.authorRodríguez-Cabello, J.C.*
dc.contributor.authorEngel, E.*
dc.date.accessioned2025-09-09T10:26:13Z
dc.date.available2025-09-09T10:26:13Z
dc.date.issued2023
dc.identifier.citationBlanco-Fernandez B, Ibañez-Fonseca A, Orbanic D, Ximenes-Carballo C, Perez-Amodio S, Rodríguez-Cabello JC, et al. Elastin-like Recombinamer Hydrogels as Platforms for Breast Cancer Modeling. Biomacromolecules. 2023;24(10):4408-18.
dc.identifier.issn1526-4602
dc.identifier.otherhttps://portalcientifico.sergas.gal//documentos/63cc8e8aab05b07b6665aca9
dc.identifier.urihttp://hdl.handle.net/20.500.11940/21429
dc.description.abstractThe involvement of the extracellular matrix (ECM) in tumor progression has motivated the development of biomaterials mimicking the tumor ECM to develop more predictive cancer models. Particularly, polypeptides based on elastin could be an interesting approach to mimic the ECM due to their tunable properties. Here, we demonstrated that elastin-like recombinamer (ELR) hydrogels can be suitable biomaterials to develop breast cancer models. This hydrogel was formed by two ELR polypeptides, one containing sequences biodegradable by matrix metalloproteinase and cyclooctyne and the other carrying arginylglycylaspartic acid and azide groups to allow cell adhesion, biodegradability, and suitable stiffness through "click-chemistry" cross-linking. Our findings show that breast cancer or nontumorigenic breast cells showed high viability and cell proliferation for up to 7 days. MCF7 and MCF10A formed spheroids whereas MDA-MB-231 formed cell networks, with the expression of ECM and high drug resistance in all cases, evidencing that ELR hydrogels are a promising biomaterial for breast cancer modeling.
dc.description.sponsorshipThis work was funded by the European Union's Horizon 2020 research and innovation program (Marie Sklodowska-Curie grant 712754); Spanish Ministry of Economy and Competitiveness (Severo Ochoa grants SEV-2014-0425 and CEX2018-000789-S); the European Commission (NMP-2014-646075); the Spanish Ministry of Economy, Industry, and Competitiveness (EUIN2017-89173); the European Regional Development Fund, State Research Agency and the Spanish Ministry of Science, Innovation, and Universities (RTI2018-096320-B-C21, 2RTI2018-096320-B-C2, MAT2015-68906-R, MAT2016-78903-R, PID2020-118669RA-I00), Interreg V Espana Portugal POCTEP (0624 _2IQBIONEURO_6_E) , the Centro en Red de Medicina Regenerativa y Terapia Celular of Castilla and Leon, Program Generalitat de Catalunya (2017-SGR-359), the CERCA Program/Generalitat de Catalunya, and the European Commission-Euronanomed3 nAngioderm Project (JTC2018-103, PCI2019-103648). We also thank Dr. Elena Rebollo and the Molecular imaging Platform at IBMB for the help in the acquisition of the images with the Thunder Imager 3D live cell microscope, and Vito Conte and Agata Nyga for the kind donation of MCF10A cells.
dc.languageeng
dc.rightsAttribution 4.0 International (CC BY 4.0)*
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/*
dc.subject.meshHumans *
dc.subject.meshFemale *
dc.subject.meshHydrogels *
dc.subject.meshElastin *
dc.subject.meshBreast Neoplasms *
dc.subject.meshBiocompatible Materials *
dc.subject.meshPeptides *
dc.subject.meshExtracellular Matrix *
dc.titleElastin-like Recombinamer Hydrogels as Platforms for Breast Cancer Modeling
dc.typeArtigo
dc.authorsophosBlanco-Fernandez, B.; Ibañez-Fonseca, A.; Orbanic, D.; Ximenes-Carballo, C.; Perez-Amodio, S.; Rodríguez-Cabello, J.C.; Engel, E.
dc.identifier.doi10.1021/acs.biomac.2c01080
dc.identifier.sophos63cc8e8aab05b07b6665aca9
dc.issue.number10
dc.journal.titleBiomacromolecules*
dc.organizationInstituto de Investigación Sanitaria de Santiago de Compostela (IDIS)
dc.page.initial4408
dc.page.final4418
dc.relation.projectIDEuropean Union's Horizon 2020 research and innovation program (Marie Sklodowska-Curie grant) [712754]
dc.relation.projectIDSpanish Ministry of Economy and Competitiveness (Severo Ochoa grants) [SEV-2014-0425, CEX2018-000789-S]
dc.relation.projectIDEuropean Commission [NMP-2014-646075]
dc.relation.projectIDSpanish Ministry of Economy, Industry, and Competitiveness [EUIN2017-89173]
dc.relation.projectIDEuropean Regional Development Fund
dc.relation.projectIDState Research Agency
dc.relation.projectIDSpanish Ministry of Science, Innovation, and Universities [RTI2018-096320-B-C21, 2RTI2018-096320-B-C2, MAT2015-68906-R, MAT2016-78903-R, PID2020-118669RA-I00]
dc.relation.projectIDInterreg V Espana Portugal POCTEP [0624 _2IQBIONEURO_6_E]
dc.relation.projectIDCentro en Red de Medicina Regenerativa y Terapia Celular of Castilla and Leon
dc.relation.projectIDProgram Generalitat de Catalunya [2017-SGR-359]
dc.relation.projectIDCERCA Program/Generalitat de Catalunya
dc.relation.projectIDEuropean Commission-Euronanomed3 nAngioderm Project [JTC2018-103, PCI2019-103648]
dc.relation.publisherversionhttps://doi.org/10.1021/acs.biomac.2c01080
dc.rights.accessRightsopenAccess*
dc.subject.keywordIDIS
dc.typefidesArtículo Científico (incluye Original, Original breve, Revisión Sistemática y Meta-análisis)
dc.typesophosArtículo Original
dc.volume.number24


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