Natural marine sponge fiber skeleton: a biomimetic scaffold for human osteoprogenitor cell attachment, growth, and differentiation
Natural marine sponge fiber skeleton: a biomimetic scaffold for human osteoprogenitor cell attachment, growth, and differentiation
Identification of suitable scaffolds onto which human stem cells can be seeded to generate functional three-dimensional tissues is a major research goal. A natural marine sponge skeleton was selected as a potential scaffold on the basis of the hydration potential of the fiber, the presence of open interconnected channels created by the fiber network, the collagenous composition of the fiber, and the structural diversity of fiber architecture. The skeleton of an undetermined species of Spongia (Class Demospongiae: Order Dictyoceratida: Family Spongiidae), composed of spongin, supported growth of human osteoprogenitor cells. Cell attachment and invasion into the framework were observed within 16 h, followed by development into membranous sheets between the sponge fibers by concentric infilling. Histochemical staining for alkaline phosphatase and type I collagen indicated formation of bone matrix as confirmed by birefringence. At 9 and 14 days alkaline phosphatase-specific activity in sponge fiber-osteoprogenitor cell cultures was significantly greater than in control cultures on cell culture plastic. Adsorption with recombinant human bone morphogenetic protein 2 confirmed the potential of this sponge skeleton as a delivery scaffold for osteogenic factors. The abundance and structural diversity of natural marine sponge skeletons and their potential as multifunctional, cell conductive and inductive frameworks indicate a promising new source of scaffold for tissue regeneration.
1159-1166
Green, D.W.
02ff4a5a-bba0-408e-8371-2f97aacc60dc
Howard, D.
454794f3-3ddc-42ae-8dbe-60e983c2a01f
Yang, X.
aa9fef47-6ada-44e9-9239-3109f37f1638
Kelly, M.
5b6e232c-a25d-4ac1-b91c-5f571997ccaf
Oreffo, R.O.C.
ff9fff72-6855-4d0f-bfb2-311d0e8f3778
2003
Green, D.W.
02ff4a5a-bba0-408e-8371-2f97aacc60dc
Howard, D.
454794f3-3ddc-42ae-8dbe-60e983c2a01f
Yang, X.
aa9fef47-6ada-44e9-9239-3109f37f1638
Kelly, M.
5b6e232c-a25d-4ac1-b91c-5f571997ccaf
Oreffo, R.O.C.
ff9fff72-6855-4d0f-bfb2-311d0e8f3778
Green, D.W., Howard, D., Yang, X., Kelly, M. and Oreffo, R.O.C.
(2003)
Natural marine sponge fiber skeleton: a biomimetic scaffold for human osteoprogenitor cell attachment, growth, and differentiation.
Tissue Engineering, 9 (6), .
Abstract
Identification of suitable scaffolds onto which human stem cells can be seeded to generate functional three-dimensional tissues is a major research goal. A natural marine sponge skeleton was selected as a potential scaffold on the basis of the hydration potential of the fiber, the presence of open interconnected channels created by the fiber network, the collagenous composition of the fiber, and the structural diversity of fiber architecture. The skeleton of an undetermined species of Spongia (Class Demospongiae: Order Dictyoceratida: Family Spongiidae), composed of spongin, supported growth of human osteoprogenitor cells. Cell attachment and invasion into the framework were observed within 16 h, followed by development into membranous sheets between the sponge fibers by concentric infilling. Histochemical staining for alkaline phosphatase and type I collagen indicated formation of bone matrix as confirmed by birefringence. At 9 and 14 days alkaline phosphatase-specific activity in sponge fiber-osteoprogenitor cell cultures was significantly greater than in control cultures on cell culture plastic. Adsorption with recombinant human bone morphogenetic protein 2 confirmed the potential of this sponge skeleton as a delivery scaffold for osteogenic factors. The abundance and structural diversity of natural marine sponge skeletons and their potential as multifunctional, cell conductive and inductive frameworks indicate a promising new source of scaffold for tissue regeneration.
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Published date: 2003
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Local EPrints ID: 25558
URI: http://eprints.soton.ac.uk/id/eprint/25558
ISSN: 1076-3279
PURE UUID: 98e34f3e-50a5-4e9e-81c5-f5bb15015efe
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Date deposited: 07 Apr 2006
Last modified: 23 Jul 2022 01:46
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Author:
D.W. Green
Author:
D. Howard
Author:
X. Yang
Author:
M. Kelly
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