Anatomy and Neuroscience - Theses

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Author: Nazemian, Vida × Start date: 2017 × Subject: TrkB ×

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    The role of neurotrophic factors in osteoarthritis pain
    Nazemian, Vida ( 2023-10)
    Introduction: Osteoarthritis (OA) is a progressive disease of synovial joints and subchondral bone characterized by swelling, stiffness and pain. Brain-derived neurotrophic factor (BDNF) and artemin (ARTN) are neurotrophic factors that are important regulators of pain, and have recently been implicated in the pathogenesis of OA pain. This study aimed to explore roles for BDNF and ARTN in OA pain, by investigating whether the expression of BDNF and ARTN, and their receptors (TrkB and GFRa3), is altered in different tissues at different stages of OA, and whether blocking their signalling during late-stage OA can alleviate pain. Methods: The monoiodoacetate (MIA)-induced OA of the rat knee joint was used to explore roles for BDNF and ARTN signalling in OA pain. Pain behaviour was assessed using the dynamic weight-bearing apparatus to assay OA-induced changes in hindlimb weight bearing behaviour, at different stages of disease (early vs late). Histopathological alterations in the knee joint and surrounding bones were assayed using Haematoxylin and Eosin staining and scored using a modified OARSI scale. Changes in expression of BDNF/TrkB and ARTN/GFRa3 were explored using Western blot analysis of lysates from different tissues (joint, bone, and DRG), and at different timepoints of the disease (early vs late). The dynamic weight-bearing assay was used to determine if inhibiting BDNF signalling (with a peptide mimetic TrkB inhibitor) or ARTN signalling (with a sequestering antibody) could relieve pain at late-stage disease. Results: The results of this thesis highlight differential histopathological changes occurring in the early and late stages of OA, with joint involvement being prominent in early OA, and bone and cartilage involvement in late OA. BDNF expression was increased in the joint in early OA and in the bone in late OA. ARTN expression was also increased in the joint in both early and late OA and in the bone in late OA. Attempts to alleviate pain in MIA-injected animals by targeting the BDNF/TrkB and ARTN/GFRa3 signalling pathways did not yield pain relief outcomes with the therapeutic approach chosen in this study. Conclusion: Our findings suggest that altered pain behaviour in early MIA-induced OA is associated with changes in the joint not surrounding bones, while altered pain behaviour in late MIA-induced OA are attributable to the surrounding bones. Furthermore, BDNF and ARTN may contribute differentially to pain in early and late stages of MIA-induced OA through actions in joint versus bone. These findings support further investigations into the role of BDNF and ARTN signalling in OA pain and the development of novel targeted therapeutic approaches for managing OA pain.