Self-assembling nanoclay diffusion gels for bioactive osteogenic microenvironments
Self-assembling nanoclay diffusion gels for bioactive osteogenic microenvironments
Laponite nanoparticles have attracted attention in the tissue engineering field for their protein interactions, gel-forming properties, and, more recently, osteogenic bioactivity. Despite growing interest in the osteogenic properties of Laponite, the application of Laponite colloidal gels to host the osteogenic differentiation of responsive stem cell populations remains unexplored. Here, the potential to harness the gel-forming properties of Laponite to generate injectable bioactive microenvironments for osteogenesis is demonstrated. A diffusion/dialysis gelation method allows the rapid formation of stable transparent gels from injectable, thixotropic Laponite suspensions in physiological fluids. Upon contact with buffered saline or blood serum, nanoporous gel networks exhibiting, respectively, fivefold and tenfold increases in gel stiffness are formed due to the reorganization of nanoparticle interactions. Laponite diffusion gels are explored as osteogenic microenvironments for skeletal stem cell containing populations. Laponite films support cell adhesion, proliferation, and differentiation of human bone marrow stromal cells in 2D. Laponite gel encapsulation significantly enhances osteogenic protein expression compared with 3D pellet culture controls. In both 2D and 3D conditions, cell associated mineralization is strongly enhanced. This study demonstrates that Laponite diffusion gels offer considerable potential as biologically active and clinically relevant bone tissue engineering scaffolds.
bioactivity, diffusion gels, Laponite, osteogenesis, skeletal stem cells
Shi, Pujiang
8080baf8-4ee0-424b-ba94-692d77497fb4
Kim, Yang Hee
de0d641b-c2cb-4e73-9ae2-e20d33689f5d
Mousa, Mohamed
f415be35-3a79-48c2-b6f5-e03fc564c5e2
Sanchez, Roxanna Ramnarine
9be7d4c2-c668-4e89-a8ef-238c6796a1be
Oreffo, Richard O.C.
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Dawson, Jonathan I.
b220fe76-498d-47be-9995-92da6c289cf3
8 August 2018
Shi, Pujiang
8080baf8-4ee0-424b-ba94-692d77497fb4
Kim, Yang Hee
de0d641b-c2cb-4e73-9ae2-e20d33689f5d
Mousa, Mohamed
f415be35-3a79-48c2-b6f5-e03fc564c5e2
Sanchez, Roxanna Ramnarine
9be7d4c2-c668-4e89-a8ef-238c6796a1be
Oreffo, Richard O.C.
ff9fff72-6855-4d0f-bfb2-311d0e8f3778
Dawson, Jonathan I.
b220fe76-498d-47be-9995-92da6c289cf3
Shi, Pujiang, Kim, Yang Hee, Mousa, Mohamed, Sanchez, Roxanna Ramnarine, Oreffo, Richard O.C. and Dawson, Jonathan I.
(2018)
Self-assembling nanoclay diffusion gels for bioactive osteogenic microenvironments.
Advanced Healthcare Materials, 7 (15), [1800331].
(doi:10.1002/adhm.201800331).
Abstract
Laponite nanoparticles have attracted attention in the tissue engineering field for their protein interactions, gel-forming properties, and, more recently, osteogenic bioactivity. Despite growing interest in the osteogenic properties of Laponite, the application of Laponite colloidal gels to host the osteogenic differentiation of responsive stem cell populations remains unexplored. Here, the potential to harness the gel-forming properties of Laponite to generate injectable bioactive microenvironments for osteogenesis is demonstrated. A diffusion/dialysis gelation method allows the rapid formation of stable transparent gels from injectable, thixotropic Laponite suspensions in physiological fluids. Upon contact with buffered saline or blood serum, nanoporous gel networks exhibiting, respectively, fivefold and tenfold increases in gel stiffness are formed due to the reorganization of nanoparticle interactions. Laponite diffusion gels are explored as osteogenic microenvironments for skeletal stem cell containing populations. Laponite films support cell adhesion, proliferation, and differentiation of human bone marrow stromal cells in 2D. Laponite gel encapsulation significantly enhances osteogenic protein expression compared with 3D pellet culture controls. In both 2D and 3D conditions, cell associated mineralization is strongly enhanced. This study demonstrates that Laponite diffusion gels offer considerable potential as biologically active and clinically relevant bone tissue engineering scaffolds.
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Accepted/In Press date: 31 May 2018
e-pub ahead of print date: 17 June 2018
Published date: 8 August 2018
Keywords:
bioactivity, diffusion gels, Laponite, osteogenesis, skeletal stem cells
Identifiers
Local EPrints ID: 424655
URI: http://eprints.soton.ac.uk/id/eprint/424655
ISSN: 2192-2640
PURE UUID: 70a0faa1-ea7e-4c87-8d34-dc3c8028d312
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Date deposited: 05 Oct 2018 11:39
Last modified: 16 Mar 2024 04:24
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Author:
Pujiang Shi
Author:
Mohamed Mousa
Author:
Roxanna Ramnarine Sanchez
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