Physiological and excessive mechanical compression of articular cartilage activates Smad2/3P signaling
Publication year
2014Source
Osteoarthritis and Cartilage, 22, 7, (2014), pp. 1018-25ISSN
Publication type
Article / Letter to editor
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Organization
Rheumatology
Orthopaedics
Journal title
Osteoarthritis and Cartilage
Volume
vol. 22
Issue
iss. 7
Page start
p. 1018
Page end
p. 25
Subject
Radboudumc 10: Reconstructive and regenerative medicine RIMLS: Radboud Institute for Molecular Life Sciences; Radboudumc 5: Inflammatory diseases RIMLS: Radboud Institute for Molecular Life SciencesAbstract
OBJECTIVE: Transforming growth factor beta (TGF-beta) in articular cartilage can signal via two routes, the ALK5/Smad2/3P and the ALK1/Smad1/5/8P route, the first being protective and the latter favoring chondrocyte terminal differentiation. Since biomechanical factors are known to play an essential role in osteoarthritis (OA) initiation and progression, we investigated if excessive mechanical compression can alter TGF-beta signaling in cartilage shifting it from ALK5/Smad2/3P to ALK1/Smad1/5/8P pathway, favoring terminal differentiation of chondrocytes. DESIGN: Articular cartilage explants were harvested from bovine metacarpophalangeal joints. After equilibration, explants were subjected to unconfined dynamic mechanical compression (1 Hz) with 3 MPa (physiological) or 12 MPa (excessive) stress. After different time intervals samples were frozen and mRNA levels of selected genes were examined using real-time polymerase chain reaction. RESULTS: In articular cartilage compressed with 3 MPa and also 12 MPa stress the expression of Smad2/3P responsive genes bSerpine1, bSmad7 and bAlk5 was up-regulated, whereas the expression of Smad1/5/8P responsive gene bId1 was down-regulated. Furthermore, the expression of bTgfb1 was significantly up-regulated in both compression groups. When ALK5/Smad2/3P pathway was blocked with a selective ALK4/5/7 inhibitor, the effect of excessive mechanical compression on bSmad7 and bAlk5 expression was prevented. CONCLUSIONS: Here we show that excessive mechanical compression alone is not able to shift TGF-beta signaling toward the ALK1/Smad1/5/8P pathway. In contrast, we show that mechanical compression not only with physiological but also with excessive stress can activate Smad2/3P signaling, which is known to be protective for articular cartilage and to block chondrocyte terminal differentiation.
This item appears in the following Collection(s)
- Academic publications [243984]
- Faculty of Medical Sciences [92811]
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