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Pathobiology of osteoarthritis: pathomechanisms and potential therapeutic targets

Pathobiology of osteoarthritis: pathomechanisms and potential therapeutic targets
Pathobiology of osteoarthritis: pathomechanisms and potential therapeutic targets
Osteoarthritis, a degenerative joint disease, is the most disabling condition of the Western world. It affects first and foremost the articular cartilages and leads to a molecular and supramolecular destruction of the extracellular cartilage matrix. In addition, the cells, the chondrocytes, show severe alterations of their phenotype: they get anabolically and catabolically activated, change accordingly their gene expression pattern, lose their differentiated phenotype, and undergo focally cell death and cell degeneration. All these processes represent potential targets for therapeutic intervention and drug development. Apart from the cartilage itself, however, other joint tissues are also involved in the disease: thus, the synovial capsule and membrane as well as the subchondral bone account not only for most of the symptoms of the disease, but are also presumably involved in the progression of the degenerative process. Both, inflammation and stiffening within the joint capsule accelerate joint destruction. Stiffening of the subchondral bone increases the mechanical stress over the overlying cartilage during physiological movement. Altogether, there is a plethora of tissues, disease processes and targets for treating osteoarthritic joint degeneration, which will need to be followed up systematically in the future.
drug therapy, pathology, review, chondrocytes, cartilage, osteoarthritis, disease, gene expression, origins, expression, inflammation, stress, gene, extracellular matrix, articular, drug design, humans, health, anti-inflammatory agents, therapeutic use, bone, research, development, phenotype
1389-4501
271-282
Roach, H.I.
1c0cf1f8-15dc-49a8-aad8-9ed3fd13c05b
Aigner, T.
a735ee4e-077c-43ba-bea2-5dd31f957f87
Soder, S.
65eed934-c39a-4f2b-9576-1365f26947d9
Haag, J.
fa1a489b-d536-4ed1-be94-650f71f6daaf
Welkerling, H.
134205ca-21da-460c-adf0-854e6755119a
Roach, H.I.
1c0cf1f8-15dc-49a8-aad8-9ed3fd13c05b
Aigner, T.
a735ee4e-077c-43ba-bea2-5dd31f957f87
Soder, S.
65eed934-c39a-4f2b-9576-1365f26947d9
Haag, J.
fa1a489b-d536-4ed1-be94-650f71f6daaf
Welkerling, H.
134205ca-21da-460c-adf0-854e6755119a

Roach, H.I., Aigner, T., Soder, S., Haag, J. and Welkerling, H. (2007) Pathobiology of osteoarthritis: pathomechanisms and potential therapeutic targets. Current Drug Targets, 8 (2), 271-282. (doi:10.2174/138945007779940160).

Record type: Article

Abstract

Osteoarthritis, a degenerative joint disease, is the most disabling condition of the Western world. It affects first and foremost the articular cartilages and leads to a molecular and supramolecular destruction of the extracellular cartilage matrix. In addition, the cells, the chondrocytes, show severe alterations of their phenotype: they get anabolically and catabolically activated, change accordingly their gene expression pattern, lose their differentiated phenotype, and undergo focally cell death and cell degeneration. All these processes represent potential targets for therapeutic intervention and drug development. Apart from the cartilage itself, however, other joint tissues are also involved in the disease: thus, the synovial capsule and membrane as well as the subchondral bone account not only for most of the symptoms of the disease, but are also presumably involved in the progression of the degenerative process. Both, inflammation and stiffening within the joint capsule accelerate joint destruction. Stiffening of the subchondral bone increases the mechanical stress over the overlying cartilage during physiological movement. Altogether, there is a plethora of tissues, disease processes and targets for treating osteoarthritic joint degeneration, which will need to be followed up systematically in the future.

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Published date: February 2007
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Keywords: drug therapy, pathology, review, chondrocytes, cartilage, osteoarthritis, disease, gene expression, origins, expression, inflammation, stress, gene, extracellular matrix, articular, drug design, humans, health, anti-inflammatory agents, therapeutic use, bone, research, development, phenotype
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Identifiers

Local EPrints ID: 61468
URI: http://eprints.soton.ac.uk/id/eprint/61468
DOI: doi:10.2174/138945007779940160
ISSN: 1389-4501
PURE UUID: 5e59b3b4-388e-49c3-afe0-8a93064e2092

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Date deposited: 10 Sep 2008
Last modified: 15 Mar 2024 11:26

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Contributors

Author: H.I. Roach
Author: T. Aigner
Author: S. Soder
Author: J. Haag
Author: H. Welkerling

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