To investigate the role of ADAMTS5 in murine osteoarthritis (OA), resulting from destabilization of the medial meniscus (DMM model) or from TGFb1 injection and enforced uphill treadmill running (TTR model). Wild-type (WT) and ADAMTS5À/À mice were subjected to either DMM or TTR and joints were evaluated for meniscal damage, cartilage changes, and fibrotic ingrowths from the joint margins. Cartilage lesions were quantified on an 8-point scoring system. Cartilage chondroitin sulfate (CS) content was evaluated by SafraninO staining and by quantitative electrophoresis (FACE). The abundance of aggrecan, versican, and specific aggrecanase-generated products was determined by Western analysis. Joint changes were similar for WT mice taken through either the DMM or the TTR model. ADAMTS5 ablation essentially eliminated cartilage erosion and fibrous overgrowth in both models. In the TTR model, ADAMTS5 ablation did not eliminate aggrecanase activity from the articular cartilage but blocked fibrosis and resulted in the accumulation of aggrecan in the articular cartilage. The cartilage protection provided by ADAMTS5 ablation in the mouse does not result from prevention of aggrecanase activity per se, but it appears to be due to a blockade of joint tissue fibrosis and a concomitant increase in cartilage aggrecan content. ß
IntroductionThe mechanism by which intra-articular injection of hyaluronan (HA) ameliorates joint pathology is unknown. Animal studies have shown that HA can reduce synovial activation, periarticular fibrosis and cartilage erosion; however, its specific effects on the different cell types involved remain unclear. We have used the TTR (TGFbeta1 injection and Treadmill Running) model of murine osteoarthritis (OA), which exhibits many OA-like changes, including synovial activation, to examine in vivo tissue-specific effects of intra-articular HA.MethodsThe kinetics of clearance of fluorotagged HA from joints was examined with whole-body imaging. Naïve and treated knee joints were examined macroscopically for cartilage erosion, meniscal damage and fibrosis. Quantitative histopathology was done with Safranin O for cartilage and with Hematoxylin & Eosin for synovium. Gene expression in joint tissues for Acan, Col1a1, Col2a1, Col3a1, Col5a1, Col10a1, Adamts5 and Mmp13 was done by quantitative PCR. The abundance and distribution of aggrecan, collagen types I, II, III, V and X, ADAMTS5 and MMP13 were examined by immunohistochemistry.ResultsInjected HA showed a half-life of less than 2 h in the murine knee joint. At the tissue level, HA protected against neovascularization and fibrosis of the meniscus/synovium and maintained articular cartilage integrity in wild-type but not in Cd44 knockout mice. HA injection enhanced the expression of chondrogenic genes and proteins and blocked that of fibrogenic/degradative genes and proteins in cartilage/subchondral bone, whereas it blocked activation of both groups in meniscus/synovium. In all locations it reduced the expression/protein for Mmp13 and blocked Adamts5 expression but not its protein abundance in the synovial lining.ConclusionsThe injection of HA, 24 h after TGFbeta1 injection, inhibited the cascade of OA-like joint changes seen after treadmill use in the TTR model of OA. In terms of mechanism, tissue protection by HA injection was abrogated by Cd44 ablation, suggesting that interaction of the injected HA with CD44 is central to its protective effects on joint tissue remodeling and degeneration in OA progression.
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