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Browsing by Author "Ding, Beibei"
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Item Knee loading repairs osteoporotic osteoarthritis by relieving abnormal remodeling of subchondral bone via Wnt/β-catenin signaling(Wiley, 2020-02) Zheng, Weiwei; Ding, Beibei; Li, Xinle; Liu, Daquan; Yokota, Hiroki; Zhang, Ping; Biomedical Engineering, School of Engineering and TechnologyOsteoporotic osteoarthritis (OPOA) is a common bone disease mostly in the elderly, but the relationship between Osteoporotic (OP) and osteoarthritis (OA) is complex. It has been shown that knee loading can mitigate OA symptoms. However, its effects on OPOA remain unclear. In this study, we characterized pathological linkage of OP to OA, and evaluated the effect of knee loading on OPOA. We employed two mouse models (OA and OPOA), and conducted histology, cytology, and molecular analyses. In the OA and OPOA groups, articular cartilage was degenerated and Osteoarthritis Research Society International score was increased. Subchondral bone underwent abnormal remodeling, the differentiation of bone marrow mesenchymal stem cells (BMSCs) to osteoblasts and chondrocytes was reduced, and migration and adhesion of pre-osteoclasts were enhanced. Compared to the OA group, the pathological changes of OA in the OPOA group were considerably aggravated. After knee loading, however, cartilage degradation was effectively prevented, and the abnormal remodeling of subchondral bone was significantly inhibited. The differentiation of BMSCs was also improved, and the expression of Wnt/β-catenin was elevated. Collectively, this study demonstrates that osteoporosis aggravates OA symptoms. Knee loading restores OPOA by regulating subchondral bone remodeling, and may provide an effective method for repairing OPOA.Item Mechanical Loading Mitigates Osteoarthritis Symptoms by Regulating the Inflammatory Microenvironment(SSRN, 2021-06-14) Zhang, Weiwei; Li, Xinle; Li, Jie; Wang, Xiaoyu; Liu, Daquan; Zhai, Lidong; Ding, Beibei; Li, Guang; Sun, Yuting; Yokota, Hiroki; Zhang, Ping; Biomedical Engineering, School of Engineering and TechnologyOsteoarthritis (OA) is one of the most common chronic diseases, in which inflammatory responses in the articular cavity induce chondrocyte apoptosis and cartilage degeneration. While mechanical loading is reported to mitigate synovial inflammation, the mechanism and pathways for the loading-driven improvement of OA symptoms remain unclear. In this research, we evaluated the loading effects on the M1/M2 polarization of synovial macrophages via performing molecular, cytology, and histology analyses. In the OA groups, the cell layer of the synovial lining was enlarged with an increase in cell density. Also, M1 macrophages were polarized and pro-inflammatory cytokines were increased. In contrast, in the OA group with mechanical loading cartilage degradation was reduced and synovial inflammation was alleviated. Notably, the polarization of M1 macrophages was diminished by mechanical loading, while that of M2 macrophages was increased. Furthermore, mechanical loading decreased the levels of pro-inflammatory cytokines such as IL-1β and TNF-α and suppressed PI3K/AKT/NF-κB signaling. Consistently, NF-κB inhibited decreased the polarization of M1 macrophages in RAW264.7 macrophages. Taken together, this study demonstrates that mechanical loading changes the ratio of M1 and M2 macrophage polarization via regulating PI3K/AKT/NF-κB signaling and provides chondroprotective effects in the mouse OA model.