Nanoscale Control of Silica Particle Formation via Silk−Silica Fusion Proteins for Bone Regeneration
Autor: | Aneta J. Mieszawska, Carole C. Perry, Lauren Nadkarni, David L. Kaplan |
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Rok vydání: | 2010 |
Předmět: |
Bone sialoprotein
Scaffold Materials science biology General Chemical Engineering fungi Nephila clavipes technology industry and agriculture Nanotechnology macromolecular substances General Chemistry equipment and supplies biology.organism_classification Fusion protein Article SILK Chemical engineering Materials Chemistry biology.protein Alkaline phosphatase Bone regeneration Nanoscopic scale |
Zdroj: | Chemistry of Materials. 22:5780-5785 |
ISSN: | 1520-5002 0897-4756 |
Popis: | The biomimetic design of silk/silica fusion proteins was carried out, combining the self assembling domains of spider dragline silk (Nephila clavipes) and silaffin derived R5 peptide of Cylindrotheca fusiformis that is responsible for silica mineralization. Genetic engineering was used to generate the protein-based biomaterials incorporating the physical properties of both components. With genetic control over the nanodomain sizes and chemistry, as well as modification of synthetic conditions for silica formation, controlled mineralized silk films with different silica morphologies and distributions were successfully generated; generating 3D porous networks, clustered silica nanoparticles (SNPs), or single SNPs. Silk serves as the organic scaffolding to control the material stability and multiprocessing makes silk/silica biomaterials suitable for different tissue regenerative applications. The influence of these new silk-silica composite systems on osteogenesis was evaluated with human mesenchymal stem cells (hMSCs) subjected to osteogenic differentiation. hMSCs adhered, proliferated, and differentiated towards osteogenic lineages on the silk/silica films. The presence of the silica in the silk films influenced osteogenic gene expression, with the upregulation of alkaline phosphatase (ALP), bone sialoprotein (BSP), and collagen type 1 (Col 1) markers. Evidence for early bone formation as calcium deposits was observed on silk films with silica. These results indicate the potential utility of these new silk/silica systems towards bone regeneration. |
Databáze: | OpenAIRE |
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