Silk-based biomaterials functionalized with fibronectin type II promotes cell adhesion

Ana Margarida Pereira; Raul Machado; André da Costa; Artur Ribeiro; Tony Collins; Andreia C. Gomes; Isabel B. Leonor; David L. Kaplan; Rui L. Reis; Margarida Casal

doi:10.1016/j.actbio.2016.10.002

Silk-based biomaterials functionalized with fibronectin type II promotes cell adhesion

Ana Margarida Pereira, Raul Machado^*, André da Costa, Artur Ribeiro, Tony Collins, Andreia C. Gomes, Isabel B. Leonor, David L. Kaplan, Rui L. Reis, Margarida Casal^*

^*Autor correspondente para este trabalho

Resultado de pesquisa › revisão de pares

30 Citações (Scopus)

Resumo

The objective of this work was to exploit the fibronectin type II (FNII) module from human matrix metalloproteinase-2 as a functional domain for the development of silk-based biopolymer blends that display enhanced cell adhesion properties. The DNA sequence of spider dragline silk protein (6mer) was genetically fused with the FNII coding sequence and expressed in Escherichia coli. The chimeric protein 6mer + FNII was purified by non-chromatographic methods. Films prepared from 6mer + FNII by solvent casting promoted only limited cell adhesion of human skin fibroblasts. However, the performance of the material in terms of cell adhesion was significantly improved when 6mer + FNII was combined with a silk-elastin-like protein in a concentration-dependent behavior. With this work we describe a novel class of biopolymer that promote cell adhesion and potentially useful as biomaterials for tissue engineering and regenerative medicine.

Idioma original	English
Páginas (de-até)	50-59
Número de páginas	10
Revista	Acta Biomaterialia
Volume	47
DOIs	https://doi.org/10.1016/j.actbio.2016.10.002
Estado da publicação	Publicado - 1 jan. 2017
Publicado externamente	Sim

Acesso ao documento

10.1016/j.actbio.2016.10.002

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30 Citações
1 Errata

Corrigendum to “Silk-based biomaterials functionalized with fibronectin type II promotes cell adhesion” [Acta Biomater. 47 (2017) 50–59]
Pereira, A. M., Machado, R., da Costa, A., Ribeiro, A., Bernardo, T. C., Collins, T., Gomes, A. C., Leonor, I. B., Kaplan, D. L., Reis, R. L. & Casal, M., 1 fev. 2017, Em: Acta Biomaterialia. 49, p. 604-604 1 p.
Resultado de pesquisa: Errata

Citação

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title = "Silk-based biomaterials functionalized with fibronectin type II promotes cell adhesion",

abstract = "The objective of this work was to exploit the fibronectin type II (FNII) module from human matrix metalloproteinase-2 as a functional domain for the development of silk-based biopolymer blends that display enhanced cell adhesion properties. The DNA sequence of spider dragline silk protein (6mer) was genetically fused with the FNII coding sequence and expressed in Escherichia coli. The chimeric protein 6mer + FNII was purified by non-chromatographic methods. Films prepared from 6mer + FNII by solvent casting promoted only limited cell adhesion of human skin fibroblasts. However, the performance of the material in terms of cell adhesion was significantly improved when 6mer + FNII was combined with a silk-elastin-like protein in a concentration-dependent behavior. With this work we describe a novel class of biopolymer that promote cell adhesion and potentially useful as biomaterials for tissue engineering and regenerative medicine.",

keywords = "Fibronectin type II, Cell adhesion, Silk, Elastin, Biomaterials",

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AU - Pereira, Ana Margarida

AU - Machado, Raul

AU - Costa, André da

AU - Ribeiro, Artur

AU - Collins, Tony

AU - Gomes, Andreia C.

AU - Leonor, Isabel B.

AU - Kaplan, David L.

AU - Reis, Rui L.

AU - Casal, Margarida

PY - 2017/1/1

Y1 - 2017/1/1

N2 - The objective of this work was to exploit the fibronectin type II (FNII) module from human matrix metalloproteinase-2 as a functional domain for the development of silk-based biopolymer blends that display enhanced cell adhesion properties. The DNA sequence of spider dragline silk protein (6mer) was genetically fused with the FNII coding sequence and expressed in Escherichia coli. The chimeric protein 6mer + FNII was purified by non-chromatographic methods. Films prepared from 6mer + FNII by solvent casting promoted only limited cell adhesion of human skin fibroblasts. However, the performance of the material in terms of cell adhesion was significantly improved when 6mer + FNII was combined with a silk-elastin-like protein in a concentration-dependent behavior. With this work we describe a novel class of biopolymer that promote cell adhesion and potentially useful as biomaterials for tissue engineering and regenerative medicine.

AB - The objective of this work was to exploit the fibronectin type II (FNII) module from human matrix metalloproteinase-2 as a functional domain for the development of silk-based biopolymer blends that display enhanced cell adhesion properties. The DNA sequence of spider dragline silk protein (6mer) was genetically fused with the FNII coding sequence and expressed in Escherichia coli. The chimeric protein 6mer + FNII was purified by non-chromatographic methods. Films prepared from 6mer + FNII by solvent casting promoted only limited cell adhesion of human skin fibroblasts. However, the performance of the material in terms of cell adhesion was significantly improved when 6mer + FNII was combined with a silk-elastin-like protein in a concentration-dependent behavior. With this work we describe a novel class of biopolymer that promote cell adhesion and potentially useful as biomaterials for tissue engineering and regenerative medicine.

KW - Fibronectin type II

KW - Cell adhesion

KW - Silk

KW - Elastin

KW - Biomaterials

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AN - SCOPUS:84995494159

SN - 1742-7061

VL - 47

SP - 50

EP - 59

JO - Acta Biomaterialia

JF - Acta Biomaterialia

ER -

Silk-based biomaterials functionalized with fibronectin type II promotes cell adhesion

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Resultado de pesquisa

Corrigendum to “Silk-based biomaterials functionalized with fibronectin type II promotes cell adhesion” [Acta Biomater. 47 (2017) 50–59]

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