Zusammenfassung
In joint diseases of both the inflammatory (rheumatoid arthritis, or RA) or the degenerative variety (osteoarthritis, or OA), matrix metalloprotemases (MMPs) are essential mediators of irreversible tissue destruction. MMP-9 is secreted as a stable, inactive zymogen and is proteolytically converted to the active enzyme. To understand the activation mechanism of MMP-9 in joint diseases, the process ...
Zusammenfassung
In joint diseases of both the inflammatory (rheumatoid arthritis, or RA) or the degenerative variety (osteoarthritis, or OA), matrix metalloprotemases (MMPs) are essential mediators of irreversible tissue destruction. MMP-9 is secreted as a stable, inactive zymogen and is proteolytically converted to the active enzyme. To understand the activation mechanism of MMP-9 in joint diseases, the process was investigated in serum-free cocultures of human articular chondrocytes and macrophages. Macrophages extensively expressed and secreted pro-MMP-9 whereas chondrocytes failed to produce the enzyme. However, efficient activation of pro-MMP-9 required Soluble and membrane-associated chondrocyte proteinases. Two alternative activation pathways mainly involved MMPs and, marginally, serine or cysteine protemases. MTI-MMP (NIMP-14), the only MT-MMP expressed in chondrocytes, converted pro-MMP-13 which, in turn, cleaved pro-MMP-9. Alternatively, pro-MMP-9 was activated less efficiently by MMP-3, which was converted by autocatalysis or by serine or cysteine proteinases. Both pathways were triggered by chondrocytes from OA, but not normal joints. Therefore, articular chondrocytes are not innocent bystanders in joint diseases. They not only produce destructive enzymes guided by environmental cues but also they can instruct inflammatory cells or cells from surrounding tissues to do so by converting in several ways zymogens produced but not activated by these cells themselves. (C) 2004 Elsevier Inc. All rights reserved.
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