Isolation and culture of human osteoblasts
Isolation and culture of human osteoblasts
The skeleton is a dynamic organ that is constantly active throughout life. The highly coordinated actions of bone cells early in life determine the body's shape and form, whilst the constant remodelling (bone resorption followed by an equal amount of bone formation) during adulthood helps to maintain skeletal mass and repair microdamage. When the balance of bone resorption and bone formation becomes unequal, bone diseases, such as osteoporosis, occur. In order to develop drugs to combat bone disease, it is important to know the regulatory systems involved in normal bone formation and resorption. In this chapter, we concentrate on bone formation, providing a detailed guide to isolating and culturing primary human osteoblasts in bone explant cultures, as well as the methodology used to characterise and monitor the function of osteoblasts. In combination, these methods provide a powerful tool in bone cell biology and in the development of new novel treatments for bone disease.
osteoblasts, bone derived, alkaline phosphatase, primary cell structure, explant, mineralisation, SaOS-2
337-355
Gartland, Alison
3cacfde2-abf7-45f7-b2fb-91102dfa86ab
Rumney, Robin M. H.
fa3de9f8-b604-44e2-9e72-3e57980ce67f
Dillon, Jane P.
e5c10799-595a-4f93-8a8e-750244ac9ff9
Gallagher, James A.
59a9c42b-a826-4df7-9b2b-442c7b690116
2012
Gartland, Alison
3cacfde2-abf7-45f7-b2fb-91102dfa86ab
Rumney, Robin M. H.
fa3de9f8-b604-44e2-9e72-3e57980ce67f
Dillon, Jane P.
e5c10799-595a-4f93-8a8e-750244ac9ff9
Gallagher, James A.
59a9c42b-a826-4df7-9b2b-442c7b690116
Gartland, Alison, Rumney, Robin M. H., Dillon, Jane P. and Gallagher, James A.
(2012)
Isolation and culture of human osteoblasts.
In,
Human Cell Culture Protocols.
(Methods in Molecular Biology, 806)
Springer Wien, .
(doi:10.1007/978-1-61779-367-7_22).
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Book Section
Abstract
The skeleton is a dynamic organ that is constantly active throughout life. The highly coordinated actions of bone cells early in life determine the body's shape and form, whilst the constant remodelling (bone resorption followed by an equal amount of bone formation) during adulthood helps to maintain skeletal mass and repair microdamage. When the balance of bone resorption and bone formation becomes unequal, bone diseases, such as osteoporosis, occur. In order to develop drugs to combat bone disease, it is important to know the regulatory systems involved in normal bone formation and resorption. In this chapter, we concentrate on bone formation, providing a detailed guide to isolating and culturing primary human osteoblasts in bone explant cultures, as well as the methodology used to characterise and monitor the function of osteoblasts. In combination, these methods provide a powerful tool in bone cell biology and in the development of new novel treatments for bone disease.
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e-pub ahead of print date: 1 January 2011
Published date: 2012
Keywords:
osteoblasts, bone derived, alkaline phosphatase, primary cell structure, explant, mineralisation, SaOS-2
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Local EPrints ID: 497420
URI: http://eprints.soton.ac.uk/id/eprint/497420
PURE UUID: 4a7149b9-20cf-4c90-a2d7-c189217d9b88
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Date deposited: 22 Jan 2025 17:47
Last modified: 23 Jan 2025 02:48
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Contributors
Author:
Alison Gartland
Author:
Robin M. H. Rumney
Author:
Jane P. Dillon
Author:
James A. Gallagher
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