OBJECTIVE: Biomechanical signals play important roles in regulating the homeostasis of articular cartilage, but under abnormal conditions may be a critical factor in the onset and progression of arthritis. Prostaglandin E(2) (PGE(2)) and nitric oxide (NO), derived from the enzymes cyclo-oxygenase 2 (COX2) and NO synthase 2 (NOS2), are inflammatory mediators that modulate numerous physiological and pathophysiological processes and are potentially important pharmacological targets in osteoarthritis. The goal of this study was to determine the effect of mechanical compression on PGE(2) production in the presence of selective NOS2 and COX2 inhibitors. METHODS: Articular cartilage explants harvested from 2-3-year-old pigs were subjected to intermittent compression at 0.5Hz over a range of stress magnitudes. PGE(2) and NO production into the media were determined in the presence and absence of the NOS2 inhibitor 1400W or the COX2 inhibitor NS398. COX2 protein levels were determined by immunoblot analysis. RESULTS: Mechanical compression significantly increased NO and PGE(2) synthesis in a manner that was dependent on the magnitude of stress. The selective COX2 inhibitor blocked compression-induced NO and PGE(2) production. Compression in the presence of 1400W further increased COX2 expression resulting in a 10-fold increase in PGE(2) production compared to uncompressed explants with 1400W and a 40-fold increase in PGE(2) compared to uncompressed explants without 1400W. CONCLUSION: Mechanical compression of articular cartilage increased COX2 and PGE(2) production through a NO-dependent pathway, and therefore pharmacological agents that target the NOS2 pathway in cartilage may have a significant influence on prostanoid production in the joint. Copyright 2002 OsteoArthritis Research Society International. Published by Elsevier Science Ltd. All rights reserved.
OBJECTIVE: Biomechanical signals play important roles in regulating the homeostasis of articular cartilage, but under abnormal conditions may be a critical factor in the onset and progression of arthritis. Prostaglandin E(2) (PGE(2)) and nitric oxide (NO), derived from the enzymes cyclo-oxygenase 2 (COX2) and NO synthase 2 (NOS2), are inflammatory mediators that modulate numerous physiological and pathophysiological processes and are potentially important pharmacological targets in osteoarthritis. The goal of this study was to determine the effect of mechanical compression on PGE(2) production in the presence of selective NOS2 and COX2 inhibitors. METHODS:Articular cartilage explants harvested from 2-3-year-old pigs were subjected to intermittent compression at 0.5Hz over a range of stress magnitudes. PGE(2) and NO production into the media were determined in the presence and absence of the NOS2 inhibitor 1400W or the COX2 inhibitor NS398. COX2 protein levels were determined by immunoblot analysis. RESULTS: Mechanical compression significantly increased NO and PGE(2) synthesis in a manner that was dependent on the magnitude of stress. The selective COX2 inhibitor blocked compression-induced NO and PGE(2) production. Compression in the presence of 1400W further increased COX2 expression resulting in a 10-fold increase in PGE(2) production compared to uncompressed explants with 1400W and a 40-fold increase in PGE(2) compared to uncompressed explants without 1400W. CONCLUSION: Mechanical compression of articular cartilage increased COX2 and PGE(2) production through a NO-dependent pathway, and therefore pharmacological agents that target the NOS2 pathway in cartilage may have a significant influence on prostanoid production in the joint. Copyright 2002 OsteoArthritis Research Society International. Published by Elsevier Science Ltd. All rights reserved.
Authors: Katherine A Glass; Jarrett M Link; Jonathan M Brunger; Franklin T Moutos; Charles A Gersbach; Farshid Guilak Journal: Biomaterials Date: 2014-04-22 Impact factor: 12.479
Authors: S Madhavan; M Anghelina; B Rath-Deschner; E Wypasek; A John; J Deschner; N Piesco; S Agarwal Journal: Osteoarthritis Cartilage Date: 2006-05-30 Impact factor: 6.576
Authors: Paul H Ousema; Franklin T Moutos; Bradley T Estes; Arnold I Caplan; Donald P Lennon; Farshid Guilak; J Brice Weinberg Journal: Biomaterials Date: 2012-09-19 Impact factor: 12.479
Authors: Josef A Stolberg-Stolberg; Bridgette D Furman; N William Garrigues; Jaewoo Lee; David S Pisetsky; Nancy A Stearns; Louis E DeFrate; Farshid Guilak; Steven A Olson Journal: J Orthop Res Date: 2013-04-25 Impact factor: 3.494
Authors: Timothy M Griffin; Beverley Fermor; Janet L Huebner; Virginia B Kraus; Ramona M Rodriguiz; William C Wetsel; Li Cao; Lori A Setton; Farshid Guilak Journal: Arthritis Res Ther Date: 2010-07-06 Impact factor: 5.156