Journal
ACTA BIOMATERIALIA
Volume 9, Issue 1, Pages 4609-4617Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.actbio.2012.08.044
Keywords
Self-assembly; Octapeptides; Hydrogels; Cell culture; Chondrocytes
Funding
- EPSRC
- Biotechnology and Biological Sciences Research Council [BB/F011547/1] Funding Source: researchfish
- BBSRC [BB/F011547/1] Funding Source: UKRI
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Nature has evolved a variety of creative approaches to many aspects of materials synthesis and microstructural control. Molecular self-assembly is a simple and efficient way to fabricate complex nanostructures such as hydrogels. We have recently investigated the gelation properties of a series of ionic-complementary peptides based on the alternation of non-polar hydrophobic and polar hydrophilic residues. In this work we focus on one specific octapeptide, FEFEFKFK (F, phenylalanine; E, glutamic acid; K, lysine). This peptide was shown to self-assemble in solution and form beta-sheet-rich nanofibres which, above a critical gelation concentration, entangle to form a self-supporting hydrogel. The fibre morphology of the hydrogel was analysed using transmission electron microscopy and cryo-scanning electron microscopy illustrating a dense fibrillar network of nanometer size fibres. Oscillatory rheology results show that the hydrogel possesses visco-elastic properties. Bovine chondrocytes were used to assess the biocompatibility of the scaffolds over 21 days under two-dimensional (2-D) and three-dimensional (3-D) cell culture conditions, particularly looking at cell morphology, proliferation and matrix deposition. 2-D culture resulted in cell viability and collagen type I deposition. In 3-D culture the mechanically stable gel was shown to support the viability of cells, the retention of cell morphology and collagen type II deposition. Subsequently the scaffold may serve as a template for cartilage tissue engineering. (C) 2012 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.
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