化学
骨溶解
氧化应激
安普克
骨吸收
兰克尔
组织蛋白酶K
蛋白激酶B
细胞生物学
内分泌学
破骨细胞
激酶
蛋白激酶A
信号转导
生物化学
激活剂(遗传学)
生物
体外
医学
受体
外科
作者
Mingzheng Peng,Lei Qiang,Yan‐Ming Xu,Cuidi Li,Tao Li,Jinwu Wang
出处
期刊:Nitric Oxide
[Elsevier BV]
日期:2018-11-16
卷期号:82: 12-24
被引量:29
标识
DOI:10.1016/j.niox.2018.11.002
摘要
The intracellular reactive oxygen species contribute to RANKL-induced osteoclastogenesis and osteolysis. Nuclear factor-erythroid 2-related factor 2 (Nrf2), a redox-sensitive transcription factor, is critical in the cellular defense against oxidative stress by induction of antioxidants and cytoprotective enzymes. In the current study, it was first demonstrated that RANKL-induced osteoclastogenesis and hydroxylapatite resorption were suppressed by Corosolic acid (CA) via inhibiting p-JNK and activating p-AMPK. Meanwhile, p-65, p-38, Akt, and GSK-3β were partly inhibited during the treatment of CA. Osteoclastogenesis related genes, including NFATc1, c-fos, cathepsin K, and CTR were down-regulated by CA as well. Furthermore, the intracellular oxidative stress of CA-treated osteoclasts was dramatically decreased and Nrf2 was translocated into the nucleus to activate antioxidants including HO-1, NQO-1, and GCLC by CA. The LPS-induced mice calvarial osteolysis model was established for the in vivo investigation. Micro-CT morphometric analysis revealed that the treatment of CA restored LPS-induced bone loss and formation of osteoclasts. Besides, p-p65 and p-JNK were activated in the LPS group but inhibited by CA in vivo. The treatment of CA also activated p-AMPK during its attenuating LPS-induced osteolysis. Conclusively, CA effectively protects against LPS-induced osteolysis by suppressing osteoclastogenesis and oxidative stress through the inhibition of the JNK and activation of the AMPK-Nrf2 axis.
科研通智能强力驱动
Strongly Powered by AbleSci AI