The role of lithium in the osteogenic bioactivity of clay nanoparticles
The role of lithium in the osteogenic bioactivity of clay nanoparticles
LAPONITE® clay nanoparticles are known to exert osteogenic effects on human bone marrow stromal cells (HBMSCs), most characteristically, an upregulation in alkaline phosphatase activity and increased calcium deposition. The specific properties of LAPONITE® that impart its bioactivity are not known. In this study the role of lithium, a LAPONITE® degradation product, was investigated through the use of lithium salts and lithium modified LAPONITE® formulations. In contrast to intact particles, lithium ions applied at concentrations equivalent to that present in LAPONITE®, failed to induce any significant increase in alkaline phosphatase (ALP) activity. Furthermore, no significant differences were observed in ALP activity with modified clay structures and the positive effect on osteogenic gene expression did not correlate with the lithium content of modified clays. These results suggest that other properties of LAPONITE® nanoparticles, and not their lithium content, are responsible for their bioactivity.
Cell Differentiation, Cells, Cultured, Clay, Humans, Lithium, Nanoparticles, Osteogenesis
3150-3161
Mousa, Mohamed
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Milan, Juan Aviles
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Kelly, Oscar
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Doyle, Jane
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Evans, Nicholas D
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Oreffo, Richard O C
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Dawson, Jonathan I
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21 April 2021
Mousa, Mohamed
2a26246f-815d-47ec-aabc-39968d32adb9
Milan, Juan Aviles
de7da4ea-63e2-4737-9e42-c4e2c66b6a3e
Kelly, Oscar
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Doyle, Jane
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Evans, Nicholas D
0982bf3e-b3f5-4682-9238-f362d6471992
Oreffo, Richard O C
ff9fff72-6855-4d0f-bfb2-311d0e8f3778
Dawson, Jonathan I
982bf202-af02-4a6c-9db0-2d4a72c1ea92
Mousa, Mohamed, Milan, Juan Aviles, Kelly, Oscar, Doyle, Jane, Evans, Nicholas D, Oreffo, Richard O C and Dawson, Jonathan I
(2021)
The role of lithium in the osteogenic bioactivity of clay nanoparticles.
Biomaterials Science, 9 (8), .
(doi:10.1039/d0bm01444c).
Abstract
LAPONITE® clay nanoparticles are known to exert osteogenic effects on human bone marrow stromal cells (HBMSCs), most characteristically, an upregulation in alkaline phosphatase activity and increased calcium deposition. The specific properties of LAPONITE® that impart its bioactivity are not known. In this study the role of lithium, a LAPONITE® degradation product, was investigated through the use of lithium salts and lithium modified LAPONITE® formulations. In contrast to intact particles, lithium ions applied at concentrations equivalent to that present in LAPONITE®, failed to induce any significant increase in alkaline phosphatase (ALP) activity. Furthermore, no significant differences were observed in ALP activity with modified clay structures and the positive effect on osteogenic gene expression did not correlate with the lithium content of modified clays. These results suggest that other properties of LAPONITE® nanoparticles, and not their lithium content, are responsible for their bioactivity.
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d0bm01444c
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Accepted/In Press date: 5 March 2021
Published date: 21 April 2021
Keywords:
Cell Differentiation, Cells, Cultured, Clay, Humans, Lithium, Nanoparticles, Osteogenesis
Identifiers
Local EPrints ID: 455805
URI: http://eprints.soton.ac.uk/id/eprint/455805
ISSN: 2047-4849
PURE UUID: 7c233ccf-ac84-4da9-9a2c-0e69a3f411a7
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Date deposited: 05 Apr 2022 17:06
Last modified: 17 Mar 2024 02:50
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Author:
Mohamed Mousa
Author:
Juan Aviles Milan
Author:
Oscar Kelly
Author:
Jane Doyle
Author:
Nicholas D Evans
Author:
Jonathan I Dawson
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