期刊论文详细信息
International Journal of Molecular Sciences 卷:15
Low-Frequency High-Magnitude Mechanical Strain of Articular Chondrocytes Activates p38 MAPK and Induces Phenotypic Changes Associated with Osteoarthritis and Pain
Thomas M. Quinn1  Lisbet Haglund2  Derek H. Rosenzweig2 
[1] Department of Chemical Engineering, McGill University, Montreal, QC H3A2B2, Canada;
[2] The Orthopaedics Research Lab, Department of Surgery, McGill University, Montreal,QC H3G1A4, Canada;
关键词: articular cartilage;    osteoarthritis;    inflammation;    pain;    nerve growth factor;    mechanical stretch;    p38 MAPK;   
DOI  :  10.3390/ijms150814427
来源: DOAJ
【 摘 要 】

Osteoarthritis (OA) is a debilitating joint disorder resulting from an incompletely understood combination of mechanical, biological, and biochemical processes. OA is often accompanied by inflammation and pain, whereby cytokines associated with chronic OA can up-regulate expression of neurotrophic factors such as nerve growth factor (NGF). Several studies suggest a role for cytokines and NGF in OA pain, however the effects of changing mechanical properties in OA tissue on chondrocyte metabolism remain unclear. Here, we used high-extension silicone rubber membranes to examine if high mechanical strain (HMS) of primary articular chondrocytes increases inflammatory gene expression and promotes neurotrophic factor release. HMS cultured chondrocytes displayed up-regulated NGF, TNFα and ADAMTS4 gene expression while decreasing TLR2 expression, as compared to static controls. HMS culture increased p38 MAPK activity compared to static controls. Conditioned medium from HMS dynamic cultures, but not static cultures, induced significant neurite sprouting in PC12 cells. The increased neurite sprouting was accompanied by consistent increases in PC12 cell death. Low-frequency high-magnitude mechanical strain of primary articular chondrocytes in vitro drives factor secretion associated with degenerative joint disease and joint pain. This study provides evidence for a direct link between cellular strain, secretory factors, neo-innervation, and pain in OA pathology.

【 授权许可】

Unknown   

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