Are cellular mechanosensors potential therapeutic targets in osteoarthritis?
Are cellular mechanosensors potential therapeutic targets in osteoarthritis?
The role of mechanical factors in driving osteoarthritis is undisputed, but historically this was largely explained by chronic attrition of the articulating surfaces. The finding that mice deficient in matrix-degrading enzymes were protected from experimental osteoarthritis (OA) suggested an alternative explanation: that mechanosensitive pathways drive the enzymes responsible for cartilage breakdown. Mechanical factors are also important for joint homeostasis and are therefore both good and bad for the joint. Several mechanosensing pathways have been identified in a variety of cell types in vitro and in vivo. Here, we review those pathways with demonstrable roles in chondrocyte mechanotransduction including ion channels, integrins, the primary cilium and the pericellular and intracellular matrices. At least two of these pathways, involving release of FGF2 from the pericellular matrix and activation of TRPV4 are chondroprotective in OA models in vivo. We discuss the potential for modulating selective mechanosensing pathways for therapeutic benefit in OA.
animal models, fibroblast growth factor 2, ion channels, mechanotransduction, osteoarthritis, pericellular matrix, primary cilium
155-167
Drexler, Stefan
cd1dac8b-a5c0-4b04-a3bb-05f7df0c12b2
Wann, Angus
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Vincent, Tonia L.
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April 2014
Drexler, Stefan
cd1dac8b-a5c0-4b04-a3bb-05f7df0c12b2
Wann, Angus
f1b0ea2f-dc8a-4588-a9d8-ae462ed0a993
Vincent, Tonia L.
0b91aad8-492b-489a-b78d-19facab2d0e4
Drexler, Stefan, Wann, Angus and Vincent, Tonia L.
(2014)
Are cellular mechanosensors potential therapeutic targets in osteoarthritis?
International Journal of Clinical Rheumatology, 9 (2), .
Abstract
The role of mechanical factors in driving osteoarthritis is undisputed, but historically this was largely explained by chronic attrition of the articulating surfaces. The finding that mice deficient in matrix-degrading enzymes were protected from experimental osteoarthritis (OA) suggested an alternative explanation: that mechanosensitive pathways drive the enzymes responsible for cartilage breakdown. Mechanical factors are also important for joint homeostasis and are therefore both good and bad for the joint. Several mechanosensing pathways have been identified in a variety of cell types in vitro and in vivo. Here, we review those pathways with demonstrable roles in chondrocyte mechanotransduction including ion channels, integrins, the primary cilium and the pericellular and intracellular matrices. At least two of these pathways, involving release of FGF2 from the pericellular matrix and activation of TRPV4 are chondroprotective in OA models in vivo. We discuss the potential for modulating selective mechanosensing pathways for therapeutic benefit in OA.
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Published date: April 2014
Keywords:
animal models, fibroblast growth factor 2, ion channels, mechanotransduction, osteoarthritis, pericellular matrix, primary cilium
Identifiers
Local EPrints ID: 492976
URI: http://eprints.soton.ac.uk/id/eprint/492976
ISSN: 1758-4272
PURE UUID: 90ed9d13-3803-44c8-9b08-79f4669f3614
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Date deposited: 21 Aug 2024 17:05
Last modified: 22 Aug 2024 02:08
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Contributors
Author:
Stefan Drexler
Author:
Angus Wann
Author:
Tonia L. Vincent
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