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Osteopontin regulates type I collagen fibril formation in bone tissue()

Osteopontin (OPN) is a non-collagenous protein involved in biomineralization of bone tissue. Beyond its role in biomineralization, we show that osteopontin is essential to the quality of collagen fibrils in bone. Transmission electron microscopy revealed that, in Opn(−/−) tissue, the organization of...

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Autores principales: Depalle, Baptiste, McGilvery, Catriona M., Nobakhti, Sabah, Aldegaither, Nouf, Shefelbine, Sandra J., Porter, Alexandra E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7821990/
https://www.ncbi.nlm.nih.gov/pubmed/32344173
http://dx.doi.org/10.1016/j.actbio.2020.04.040
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author Depalle, Baptiste
McGilvery, Catriona M.
Nobakhti, Sabah
Aldegaither, Nouf
Shefelbine, Sandra J.
Porter, Alexandra E.
author_facet Depalle, Baptiste
McGilvery, Catriona M.
Nobakhti, Sabah
Aldegaither, Nouf
Shefelbine, Sandra J.
Porter, Alexandra E.
author_sort Depalle, Baptiste
collection PubMed
description Osteopontin (OPN) is a non-collagenous protein involved in biomineralization of bone tissue. Beyond its role in biomineralization, we show that osteopontin is essential to the quality of collagen fibrils in bone. Transmission electron microscopy revealed that, in Opn(−/−) tissue, the organization of the collagen fibrils was highly heterogeneous, more disorganized than WT bone and comprised of regions of both organized and disorganized matrix with a reduced density. The Opn(−/−) bone tissue also exhibited regions in which the collagen had lost its characteristic fibrillar structure, and the crystals were disorganized. Using nanobeam electron diffraction, we show that damage to structural integrity of collagen fibrils in Opn(−/-) bone tissue and their organization causes mineral disorganization, which could ultimately affect its mechanical integrity. STATEMENT OF SIGNIFICANCE: This study presents new evidence about the role of osteopontin (OPN) – a non-collagenous protein – on the structure and organization of the organic and mineral matrix in bone. In previous work, osteopontin has been suggested to regulate the nucleation and growth of bone mineral crystals and to form sacrificial bonds between mineralized collagen fibrils to enhance bone's toughness. Our findings show that OPN plays a crucial role before mineralization, during the formation of the collagen fibrils. OPN-deficient bones present a lower collagen content compared to wild type bone and, at the tissue level, collagen fibrils organization can be significantly altered in the absence of OPN. Our results suggest that OPN is critical for the formation and/or remodeling of bone collagen matrix. Our findings could lead to the development of new therapeutic strategies of bone diseases affecting collagen formation and remodeling.
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spelling pubmed-78219902021-01-29 Osteopontin regulates type I collagen fibril formation in bone tissue() Depalle, Baptiste McGilvery, Catriona M. Nobakhti, Sabah Aldegaither, Nouf Shefelbine, Sandra J. Porter, Alexandra E. Acta Biomater Full Length Article Osteopontin (OPN) is a non-collagenous protein involved in biomineralization of bone tissue. Beyond its role in biomineralization, we show that osteopontin is essential to the quality of collagen fibrils in bone. Transmission electron microscopy revealed that, in Opn(−/−) tissue, the organization of the collagen fibrils was highly heterogeneous, more disorganized than WT bone and comprised of regions of both organized and disorganized matrix with a reduced density. The Opn(−/−) bone tissue also exhibited regions in which the collagen had lost its characteristic fibrillar structure, and the crystals were disorganized. Using nanobeam electron diffraction, we show that damage to structural integrity of collagen fibrils in Opn(−/-) bone tissue and their organization causes mineral disorganization, which could ultimately affect its mechanical integrity. STATEMENT OF SIGNIFICANCE: This study presents new evidence about the role of osteopontin (OPN) – a non-collagenous protein – on the structure and organization of the organic and mineral matrix in bone. In previous work, osteopontin has been suggested to regulate the nucleation and growth of bone mineral crystals and to form sacrificial bonds between mineralized collagen fibrils to enhance bone's toughness. Our findings show that OPN plays a crucial role before mineralization, during the formation of the collagen fibrils. OPN-deficient bones present a lower collagen content compared to wild type bone and, at the tissue level, collagen fibrils organization can be significantly altered in the absence of OPN. Our results suggest that OPN is critical for the formation and/or remodeling of bone collagen matrix. Our findings could lead to the development of new therapeutic strategies of bone diseases affecting collagen formation and remodeling. Elsevier 2021-01-15 /pmc/articles/PMC7821990/ /pubmed/32344173 http://dx.doi.org/10.1016/j.actbio.2020.04.040 Text en © 2020 Acta Materialia Inc. Published by Elsevier Ltd. http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Full Length Article
Depalle, Baptiste
McGilvery, Catriona M.
Nobakhti, Sabah
Aldegaither, Nouf
Shefelbine, Sandra J.
Porter, Alexandra E.
Osteopontin regulates type I collagen fibril formation in bone tissue()
title Osteopontin regulates type I collagen fibril formation in bone tissue()
title_full Osteopontin regulates type I collagen fibril formation in bone tissue()
title_fullStr Osteopontin regulates type I collagen fibril formation in bone tissue()
title_full_unstemmed Osteopontin regulates type I collagen fibril formation in bone tissue()
title_short Osteopontin regulates type I collagen fibril formation in bone tissue()
title_sort osteopontin regulates type i collagen fibril formation in bone tissue()
topic Full Length Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7821990/
https://www.ncbi.nlm.nih.gov/pubmed/32344173
http://dx.doi.org/10.1016/j.actbio.2020.04.040
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