蛇床子素通过PERK信号级联减轻内质网应激,从而改善磨损颗粒诱导的成骨损伤。
Osthole ameliorates wear particle-induced osteogenic impairment by mitigating endoplasmic reticulum stress via PERK signaling cascade.
作者信息
Yu Xin, Jiang Juan, Li Cheng, Wang Yang, Ren Zhengrong, Hu Jianlun, Yuan Tao, Wu Yongjie, Wang Dongsheng, Sun Ziying, Wu Qi, Chen Bin, Fang Peng, Ding Hao, Meng Jia, Jiang Hui, Zhao Jianning, Bao Nirong
机构信息
Department of Orthopedics, Nanjing Jinling Hospital, Affiliated Hospital of Medical School, Nanjing University, Nanjing, China.
State Key Laboratory of Pharmaceutical Biotechnology, School of Life Sciences, Nanjing University, Nanjing, China.
出版信息
Mol Med. 2024 Dec 20;30(1):266. doi: 10.1186/s10020-024-01034-z.
BACKGROUND
Periprosthetic osteolysis and subsequent aseptic loosening are the leading causes of failure following total joint arthroplasty. Osteogenic impairment induced by wear particles is regarded as a crucial contributing factor in the development of osteolysis, with endoplasmic reticulum (ER) stress identified as a key underlying mechanism. Therefore, identifying potential therapeutic targets and agents that can regulate ER stress adaption in osteoblasts is necessary for arresting aseptic loosening. Osthole (OST), a natural coumarin derivative, has demonstrated promising osteogenic properties and the ability to modulate ER stress adaption in various diseases. However, the impact of OST on ER stress-mediated osteogenic impairment caused by wear particles remains unclear.
METHODS
TiAlV particles (TiPs) were sourced from the prosthesis of patients who underwent revision hip arthroplasty due to aseptic loosening. A mouse calvarial osteolysis model was utilized to explore the effects of OST on TiPs-induced osteogenic impairment in vivo. Primary mouse osteoblasts were employed to investigate the impact of OST on ER stress-mediated osteoblast apoptosis and osteogenic inhibition induced by TiPs in vitro. The mechanisms underlying OST-modulated alleviation of ER stress induced by TiPs were elucidated through Molecular docking, immunochemistry, PCR, and Western blot analysis.
RESULTS
In this study, we found that OST treatment effectively mitigated TiAlV particles (TiPs)-induced osteolysis by enhancing osteogenesis in a mouse calvarial model. Furthermore, we observed that OST could attenuate ER stress-mediated apoptosis and osteogenic reduction in osteoblasts exposed to TiPs in vitro and in vivo. Mechanistically, we demonstrated that OST exerts bone-sparing effects on stressed osteoblasts upon TiPs exposure by specifically suppressing the ER stress-dependent PERK signaling cascade.
CONCLUSION
Osthole ameliorates wear particle-induced osteogenic impairment by mitigating endoplasmic reticulum stress via PERK signaling cascade. These findings suggest that OST may serve as a potential therapeutic agent for combating wear particle-induced osteogenic impairment, offering a novel alternative strategy for managing aseptic prosthesis loosening.
背景
假体周围骨溶解及随后的无菌性松动是全关节置换术后失败的主要原因。磨损颗粒诱导的成骨功能损害被认为是骨溶解发展的一个关键促成因素,内质网(ER)应激被确定为一个关键的潜在机制。因此,确定能够调节成骨细胞内质网应激适应的潜在治疗靶点和药物对于阻止无菌性松动是必要的。蛇床子素(OST)是一种天然香豆素衍生物,已显示出有前景的成骨特性以及在各种疾病中调节内质网应激适应的能力。然而,OST对磨损颗粒引起的内质网应激介导的成骨功能损害的影响仍不清楚。
方法
TiAlV颗粒(TiPs)取自因无菌性松动而接受翻修髋关节置换术患者的假体。利用小鼠颅骨骨溶解模型在体内探索OST对TiPs诱导的成骨功能损害的影响。使用原代小鼠成骨细胞在体外研究OST对TiPs诱导的内质网应激介导的成骨细胞凋亡和成骨抑制的影响。通过分子对接、免疫化学、PCR和蛋白质印迹分析阐明OST调节减轻TiPs诱导的内质网应激的潜在机制。
结果
在本研究中,我们发现OST治疗通过增强小鼠颅骨模型中的成骨作用有效减轻了TiAlV颗粒(TiPs)诱导的骨溶解。此外,我们观察到OST可以在体外和体内减轻暴露于TiPs的成骨细胞中内质网应激介导的凋亡和成骨减少。机制上,我们证明OST通过特异性抑制内质网应激依赖性PERK信号级联反应,对暴露于TiPs的应激成骨细胞发挥保骨作用。
结论
蛇床子素通过PERK信号级联反应减轻内质网应激来改善磨损颗粒诱导的成骨功能损害。这些发现表明,OST可能作为一种潜在的治疗药物来对抗磨损颗粒诱导的成骨功能损害,为处理无菌性假体松动提供了一种新的替代策略。
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