缓激肽
药理学
骨关节炎
肽
内皮素受体
化学
内皮素1
医学
内科学
受体
生物化学
病理
替代医学
作者
Seng Manivong,Araceli García Ac,Louiza Mahrouche,Fabiana Sélos Guerra,Line Séguy,Pierré Sirois,Xavier Banquy,Gaëlle Roullin,Florina Moldvan
标识
DOI:10.1016/j.ijpharm.2025.126089
摘要
Osteoarthritis (OA) is a widespread cause of physical disability and chronic pain, yet it lacks a pharmacological cure due to the difficulty of delivering drugs to avascular cartilage. We recently developed peptide-grafted nanogels for intra-articular injection that were well tolerated in vivo in healthy equine joints. Hence, this study reports the pharmaceutical aspects of this drug delivery system, which is based on biopolymeric nanohydrogels (nanogels, NG) for the localized, sustained delivery of two peptide antagonists of endothelin-1 (ETA) and bradykinin (BKB1), namely BQ123 and R954. Chitosan and hyaluronic acid were first functionalized with BQ123 and R954, respectively (CH-BQ123 and HA-R954), and subsequently used to synthesize nanogels via ionic gelation (NG BQ123 and NG R954). Peptide-conjugated NG were characterized for stability, peptide release in human synovial fluid, cytocompatibility, and biological efficacy in vitro in human chondrocytes. NG BQ123 and NG R954 showed slow, sustained release in synovial fluid for up to three months. Both were biocompatible with human chondrocytes and rapidly internalized by the cells. Notably, in vitro therapeutic effects were observed after only seven days of treatment, attributed to the slow peptide release reducing nitric oxide (NO) and Cyclooxygenase-2 expression. This study demonstrates a nanogel platform enabling localized, sustained peptide delivery, supporting the potential therapeutic use of NG BQ123 and NG R954 in OA treatment.
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