Abstract
Osteoarthritis (OA), the most common chronic degenerative joint disease, is characterized by inflammation, degradation of the articular cartilage and subchondral bone lesions, causing pain and decreased functionality.
NF-κB pathway is involved in OA and, in most cases, its activation depends on the phosphorylation and degradation of IκBα, the NF-κB endogenous inhibitor that sequesters NF-κB in the cytosol. Under inflammatory stimuli, IκBα is degraded by the IKK signalosome and NF-κB moves into the nucleus, inducing the transcription of inflammatory mediator genes and catabolic enzymes. The IKK signalosome includes IKKβ and IKKα kinases, the latter shown to be pivotal in the OA extracellular matrix derangement. The current OA therapies are not curative and nowadays, the preclinical research is evaluating new structure-modifying pharmacological treatments, able to prevent or delay cartilage degradation.
N-acetyl phenylalanine derivative (NAPA), is a derivative of glucosamine, a constituent of the glycosaminoglycans of cartilage and a chondroprotective agent. Previous in vitro studies showed the ability of NAPA to increase cartilage components and to reduce inflammatory cytokines, inhibiting IKKα kinase activity and its nuclear migration.
The present study aims to further clarify the effect of NAPA in counteracting OA progression, in an in vivo mouse model after destabilization of the medial meniscus (DMM).
Mice were divided into 3 groups:
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DMM group: DMM surgery without NAPA;
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DMM+NAPA group: DMM surgery with NAPA treatment;
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NO DMM group: no DMM surgery.
DMM surgery was performed in the right knee, according to Glasson SS [2], while the left knee did not undergo any surgery. Four weeks after surgery (mild-to-moderate OA), some animals received one intra-articular injection of NAPA (2.5 mM) and after 2 weeks, the animals were pharmacologically euthanized. The mice of the 1st group were euthanized 4 weeks after DMM and those of the 3rd group after 6 weeks from their arrival in the animal facility. At the end of experimental times, both knee joints of the animals were analyzed through histology, histomorphometry, immunohistochemistry and subchondral bone microhardness.
The injection of NAPA significantly improved cartilage structure, increased cartilage thickness (p<0.0005), reduced Chambers and Mankin scores (p<0.005), fibrillation index (p<0.005) and decreased MMP13 (p<0.05) and ADAMTS5, MMP10, and IKKα (p<0.0005) staining. The microhardness measurements did not shown statistically significant differences between groups.
This study demonstrated the chondroprotective activities exerted by NAPA in vivo. NAPA markedly improved the physical structure of articular cartilage and reduced the amount of catabolic enzymes, and therefore of extracellular matrix remodeling. The reduction in OA grading and catabolic enzymes paralleled the reduction of IKKα expression. This further hints at a pivotal role of IKKα in OA development by regulating MMP activity through the control of procollagenase (MMP10) expression. We believe that the preliminary preclinical data, here presented, contribute to improve the knowledge on the development of disease modifying drugs since we showed the ability of NAPA of reverting the surgically induced OA in the widely accepted DMM model.
