The effect of age on the microarchitecture and profile of gene expression in femoral head and neck bone from patients with osteoarthritis

Ageing of the skeleton is characterised by decreased bone mineral density, reduced strength, and increased risk of fracture. Although it is known that these changes are determined by the activities of bone cells through the processes of bone modelling and remodelling, details of the molecular mechan...

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Autores principales: Naot, Dorit, Watson, Maureen, Choi, Ally J., Musson, David S., Callon, Karen E., Zhu, Mark, Gao, Ryan, Caughey, William, Pitto, Rocco P., Munro, Jacob T., Horne, Anne, Gamble, Gregory D., Dalbeth, Nicola, Reid, Ian R., Cornish, Jillian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2020
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7292911/
https://www.ncbi.nlm.nih.gov/pubmed/32551338
http://dx.doi.org/10.1016/j.bonr.2020.100287
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author Naot, Dorit
Watson, Maureen
Choi, Ally J.
Musson, David S.
Callon, Karen E.
Zhu, Mark
Gao, Ryan
Caughey, William
Pitto, Rocco P.
Munro, Jacob T.
Horne, Anne
Gamble, Gregory D.
Dalbeth, Nicola
Reid, Ian R.
Cornish, Jillian
author_facet Naot, Dorit
Watson, Maureen
Choi, Ally J.
Musson, David S.
Callon, Karen E.
Zhu, Mark
Gao, Ryan
Caughey, William
Pitto, Rocco P.
Munro, Jacob T.
Horne, Anne
Gamble, Gregory D.
Dalbeth, Nicola
Reid, Ian R.
Cornish, Jillian
author_sort Naot, Dorit
collection PubMed
description Ageing of the skeleton is characterised by decreased bone mineral density, reduced strength, and increased risk of fracture. Although it is known that these changes are determined by the activities of bone cells through the processes of bone modelling and remodelling, details of the molecular mechanisms that underlie age-related changes in bone are still missing. Here, we analysed age-related changes in bone microarchitecture along with global gene expression in samples obtained from patients with osteoarthritis (OA). We hypothesised that changes would be evident in both microarchitecture and gene expression and aimed to identify novel molecular mechanisms that underlie ageing processes in bone. Samples of femoral head and neck were obtained from patients undergoing hip arthroplasty for OA, who were either ≤60 years or ≥70 years of age. Bone microarchitecture was analysed in cores of trabecular bone from the femoral head (17 from the younger group and 18 from the older), and cortical bone from the femoral neck (25 younger/22 older), using a Skyscan 1172 microCT scanner (Bruker). Gene expression was compared between the two age groups in 20 trabecular samples from each group, and 10 cortical samples from each group, using Clariom S Human microarrays (ThermoFisher Scientific). We found no significant changes between the two age groups in indices of trabecular or cortical bone microarchitecture. Gene expression analysis identified seven genes that had higher expression in the older group, including the transcription factor EGR1 and the glucose transporter SLC2A3 (GLUT3), and 21 differentially expressed genes in cortical bone samples (P<0.05, fold change>2). However, none of the comparisons of gene expression had false discovery rate-adjusted P<0.1. In contrast to our working hypothesis, we found only minor differences in gene expression and no differences in bone microarchitecture between the two age-groups. It is possible that pathological processes related to OA provide protection against age-related changes in bone. Our study suggests that in patients with OA, the bone properties measured here in femoral head and neck do not deteriorate significantly from the sixth to the eighth decade of life.
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spelling pubmed-72929112020-06-17 The effect of age on the microarchitecture and profile of gene expression in femoral head and neck bone from patients with osteoarthritis Naot, Dorit Watson, Maureen Choi, Ally J. Musson, David S. Callon, Karen E. Zhu, Mark Gao, Ryan Caughey, William Pitto, Rocco P. Munro, Jacob T. Horne, Anne Gamble, Gregory D. Dalbeth, Nicola Reid, Ian R. Cornish, Jillian Bone Rep Article Ageing of the skeleton is characterised by decreased bone mineral density, reduced strength, and increased risk of fracture. Although it is known that these changes are determined by the activities of bone cells through the processes of bone modelling and remodelling, details of the molecular mechanisms that underlie age-related changes in bone are still missing. Here, we analysed age-related changes in bone microarchitecture along with global gene expression in samples obtained from patients with osteoarthritis (OA). We hypothesised that changes would be evident in both microarchitecture and gene expression and aimed to identify novel molecular mechanisms that underlie ageing processes in bone. Samples of femoral head and neck were obtained from patients undergoing hip arthroplasty for OA, who were either ≤60 years or ≥70 years of age. Bone microarchitecture was analysed in cores of trabecular bone from the femoral head (17 from the younger group and 18 from the older), and cortical bone from the femoral neck (25 younger/22 older), using a Skyscan 1172 microCT scanner (Bruker). Gene expression was compared between the two age groups in 20 trabecular samples from each group, and 10 cortical samples from each group, using Clariom S Human microarrays (ThermoFisher Scientific). We found no significant changes between the two age groups in indices of trabecular or cortical bone microarchitecture. Gene expression analysis identified seven genes that had higher expression in the older group, including the transcription factor EGR1 and the glucose transporter SLC2A3 (GLUT3), and 21 differentially expressed genes in cortical bone samples (P<0.05, fold change>2). However, none of the comparisons of gene expression had false discovery rate-adjusted P<0.1. In contrast to our working hypothesis, we found only minor differences in gene expression and no differences in bone microarchitecture between the two age-groups. It is possible that pathological processes related to OA provide protection against age-related changes in bone. Our study suggests that in patients with OA, the bone properties measured here in femoral head and neck do not deteriorate significantly from the sixth to the eighth decade of life. Elsevier 2020-06-05 /pmc/articles/PMC7292911/ /pubmed/32551338 http://dx.doi.org/10.1016/j.bonr.2020.100287 Text en © 2020 The Authors. Published by Elsevier Inc. http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Naot, Dorit
Watson, Maureen
Choi, Ally J.
Musson, David S.
Callon, Karen E.
Zhu, Mark
Gao, Ryan
Caughey, William
Pitto, Rocco P.
Munro, Jacob T.
Horne, Anne
Gamble, Gregory D.
Dalbeth, Nicola
Reid, Ian R.
Cornish, Jillian
The effect of age on the microarchitecture and profile of gene expression in femoral head and neck bone from patients with osteoarthritis
title The effect of age on the microarchitecture and profile of gene expression in femoral head and neck bone from patients with osteoarthritis
title_full The effect of age on the microarchitecture and profile of gene expression in femoral head and neck bone from patients with osteoarthritis
title_fullStr The effect of age on the microarchitecture and profile of gene expression in femoral head and neck bone from patients with osteoarthritis
title_full_unstemmed The effect of age on the microarchitecture and profile of gene expression in femoral head and neck bone from patients with osteoarthritis
title_short The effect of age on the microarchitecture and profile of gene expression in femoral head and neck bone from patients with osteoarthritis
title_sort effect of age on the microarchitecture and profile of gene expression in femoral head and neck bone from patients with osteoarthritis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7292911/
https://www.ncbi.nlm.nih.gov/pubmed/32551338
http://dx.doi.org/10.1016/j.bonr.2020.100287
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