Blockage of Osteopontin‐Integrin β 3 Signaling in Infrapatellar Fat Pad Attenuates Osteoarthritis in Mice

• Published in: Advanced science Vol. 10; no. 22
• Main Authors: Dai, Bingyang, Zhu, Yuwei, Li, Xu, Liang, Zuru, Xu, Shunxiang, Zhang, Shian, Zhang, Zhe, Bai, Shanshan, Tong, Wenxue, Cao, Mingde, Li, Ye, Zhu, Xiaobo, Liu, Wei, Zhang, Yuantao, Chang, Liang, Yung, Patrick Shu‐hang, Ki‐wai Ho, Kevin, Xu, Jiankun, Ngai, To, Qin, Ling
• Format: Journal Article
• Language: English
• Published: 01.08.2023
• ISSN: 2198-3844; 2198-3844
• DOI: 10.1002/advs.202300897

Abstract The knowledge of osteoarthritis (OA) has nowadays been extended from a focalized cartilage disorder to a multifactorial disease. Although recent investigations have reported that infrapatellar fat pad (IPFP) can trigger inflammation in the knee joint, the mechanisms behind the role of IPFP on knee OA progression remain to be defined. Here, dysregulated osteopontin (OPN) and integrin β 3 signaling are found in the OA specimens of both human and mice. It is further demonstrated that IPFP‐derived OPN participates in OA progression, including activated matrix metallopeptidase 9 in chondrocyte hypertrophy and integrin β 3 in IPFP fibrosis. Motivated by these findings, an injectable nanogel is fabricated to provide sustained release of siRNA Cd61 ( RGD− Nanogel/siRNA Cd61 ) that targets integrins. The RGD− Nanogel possesses excellent biocompatibility and desired targeting abilities both in vitro and in vivo. Local injection of RGD− Nanogel/siRNA Cd61 robustly alleviates the cartilage degeneration, suppresses the advancement of tidemark, and reduces the subchondral trabecular bone mass in OA mice. Taken together, this study provides an avenue for developing RGD− Nanogel/siRNA Cd61 therapy to mitigate OA progression via blocking OPN‐integrin β 3 signaling in IPFP.