Clinical treatments to repair articular cartilage (AC) defects such as autologous cartilage implantation (mosaicplasty) often suffer from poor integration with host tissue, limiting their long-term efficacy. Thus to ensure the longevity of AC repair, understanding natural repair mechanisms that allow for successful integration between cartilaginous surfaces, as has been reported in juvenile tissue, may be key. Here, we evaluated cartilage integration over time in a pig explant model of natural tissue repair by assessing expression and localisation of major ECM proteins, enzymatic cross-linkers including the five isoforms of lysyl oxidase (LOX), small leucine-rich repeat proteoglycans (SLRP's), and proteases (e.g. ADAMTS4). AC was retrieved from the femoral condyles of 8-week-old pigs. Full thickness 6mmØ AC discs were prepared, defects were induced, and explants cultured for up to 28 days. After fixation, sections were stained using Safranin-O and antibodies against Collagen types I & II, LOX, and ADAMTS4. Gene expression analyses were performed using qPCR. We also cultured devitalized samples, either with or without enzymatic treatment to deplete proteoglycans, for 28 days and similarly assessed repair.Abstract
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