NF-κB transcription factors regulate a number of genes that are activated under stress conditions. Blockage of the the canonical NF-κB pathway has been emerged as a possible strategy to cure osteoarthritis and rheumatoid arthritis. However, the roles of κNF-B in normal skeletal physiology are largely unknown owing to the lack of suitable animal models. Here, we investigated the function of canonical κNF-B pathway in the cartilaginous skeleton by ablating Nemo (NF-κB essential modulator) in chondrocytes using the Col2a1 transgene. Mice were analyzed by skeletal staining, histology, proliferation and apoptosis assays at various stages. Histochemistry, GAG assay and immunohistochemistry were utilized to assess the impact of NEMO-deficiency in cytokine-induced cartilage degradation of hip explants. To identify genes regulated through the canonical NF-κB pathway in response to injury, an ex vivo hip avulsion model was applied. 24 genes known to be induced early following cartilage injury were assessed in wildtype and mutant hips by RT-PCR. Time lapse photography was used to investigate chondrocyte migration in vitro. Atomic force microscopy (AFM) was applied to assess biomechanical properties of the cartilage. Pathological changes of articular cartilage were scored in aged joints.Introduction
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