化学
羟考酮
芬太尼
类阿片
代谢物
止痛药
立体化学
μ-阿片受体
ED50公司
机制(生物学)
热板
吗啡
药理学
受体
生物化学
医学
哲学
工程类
认识论
机械工程
作者
Huoming Huang,Xueping Li,Peng Xie,Xinwei Li,Xuejun Xu,Yuanyuan Qian,Congmin Yuan,Xiangguo Meng,Jing‐Rui Chai,Jing Chen,Jing Liu,Wenli Wang,Wei Li,Yujun Wang,Wei Fu,Jinggen Liu
标识
DOI:10.1021/acs.jmedchem.1c00722
摘要
Management of moderate to severe pain relies heavily on opioid analgesics such as morphine, oxycodone, and fentanyl in clinics. However, their prolonged use was associated with undesirable side effects. Many new strategies to reduce side effects have been proposed, but not without disadvantages. Using a hot plate model as a phenotypic screening method, our studies identified (3R,4S)-9d with a new scaffold as a potent analgesic with ED50 values of 0.54 mg/kg and 0.021 mg/kg in hot plate and antiwrithing models, respectively. Mechanistic studies showed that it elicited its analgesic effect via the active metabolite (3R,4S)-10a. The mechanism of (3R,4S)-10a-induced activation of the μ opioid receptor (MOR) was proposed by means of molecular dynamics (MD) simulation.
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