Scaffolds Formed via the Non-Equilibrium Supramolecular Assembly of the Synergistic ECM Peptides RGD and PHSRN Demonstrate Improved Cell Attachment in 3D

Autor:	David R. Nisbet, Kiara F. Bruggeman, Benjamin M. Long, Richard J. Williams, Sivapriya Pavuluri, Mitchell Boyd-Moss, Colin R Barrow, San-Seint S Aye, Rui Li, Yi Wang
Rok vydání:	2018
Předmět:	Polymers and Plastics Peptide 02 engineering and technology 010402 general chemistry 01 natural sciences Article Epitope Supramolecular assembly lcsh:QD241-441 lcsh:Organic chemistry Cell adhesion Peptide sequence chemistry.chemical_classification biology Chemistry cell adhesion self-assembly General Chemistry Adhesion 021001 nanoscience & nanotechnology 0104 chemical sciences Fibronectin Self-healing hydrogels peptides biology.protein Biophysics hydrogel 0210 nano-technology
Zdroj:	Polymers, Vol 10, Iss 7, p 690 (2018) Polymers Volume 10 Issue 7
ISSN:	2073-4360
DOI:	10.3390/polym10070690
Popis:	Self-assembling peptides (SAPs) are a relatively new class of low molecular weight gelators which immobilize their solvent through the spontaneous formation of (fibrillar) nanoarchitectures. As peptides are derived from proteins, these hydrogels are ideal for use as biocompatible scaffolds for regenerative medicine. Importantly, due to the propensity of peptide sequences to act as signals in nature, they are easily functionalized to be cell instructive via the inclusion of bioactive epitopes. In nature, the fibronectin peptide sequence, arginine-glycine-aspartic acid (RGD) synergistically promotes the integrin &alpha 5&beta 1 mediated cell adhesion with another epitope, proline-histidine-serine-arginine-asparagine (PHSRN) however most functionalization strategies focus on RGD alone. Here, for the first time, we discuss the biomimetic inclusion of both these sequences within a self-assembled minimalistic peptide hydrogel. Here, based on our work with Fmoc-FRGDF (N-flourenylmethyloxycarbonyl phenylalanine-arginine-glycine-aspartic acid-phenylalanine), we show it is possible to present two epitopes simultaneously via the assembly of the epitopes by the coassembly of two SAPs, and compare this to the effectiveness of the signals in a single peptide Fmoc-FRGDF: Fmoc-PHSRN (N-flourenylmethyloxycarbonyl-proline-histidine-serine-arginine-asparagine) and Fmoc-FRGDFPHSRN (N-flourenylmethyloxycarbonyl-phenylalanine-arginine-glycine-asparticacid-phenylalanine-proline-histidine-serine-arginine-asparagine). We show both produced self-supporting hydrogel underpinned by entangled nanofibrils, however, the stiffness of coassembled hydrogel was over two orders of magnitude higher than either Fmoc-FRGDF or Fmoc-FRGDFPHSRN alone. In-vitro three-dimensional cell culture of human mammary fibroblasts on the hydrogel mixed peptide showed dramatically improved adhesion, spreading and proliferation over Fmoc-FRGDF. However, the long peptide did not provide effective cell attachment. The results demonstrated the selective synergy effect of PHSRN with RGD is an effective way to augment the robustness and functionality of self-assembled bioscaffolds.
Databáze:	OpenAIRE
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