2,3-二氢-1-苯并呋喃衍生物作为一系列强效选择性大麻素受体2激动剂:通过配体导向建模进行设计、合成及结合模式预测
2,3-Dihydro-1-benzofuran derivatives as a series of potent selective cannabinoid receptor 2 agonists: design, synthesis, and binding mode prediction through ligand-steered modeling.
作者信息
Diaz Philippe, Phatak Sharangdhar S, Xu Jijun, Fronczek Frank R, Astruc-Diaz Fanny, Thompson Charles M, Cavasotto Claudio N, Naguib Mohamed
机构信息
Core Laboratory for Neuromolecular Production, Department of Biomedical and Pharmaceutical Sciences, The University of Montana, 32 Campus Drive, Missoula, MT 59812 (USA).
出版信息
ChemMedChem. 2009 Oct;4(10):1615-29. doi: 10.1002/cmdc.200900226.
Abstract
We recently discovered and reported a series of N-alkyl-isatin acylhydrazone derivatives that are potent cannabinoid receptor 2 (CB(2)) agonists. In an effort to improve the druglike properties of these compounds and to better understand and improve the treatment of neuropathic pain, we designed and synthesized a new series of 2,3-dihydro-1-benzofuran derivatives bearing an asymmetric carbon atom that behave as potent selective CB(2) agonists. We used a multidisciplinary medicinal chemistry approach with binding mode prediction through ligand-steered modeling. Enantiomer separation and configuration assignment were carried out for the racemic mixture for the most selective compound, MDA7 (compound 18). It appeared that the S enantiomer, compound MDA104 (compound 33), was the active enantiomer. Compounds MDA42 (compound 19) and MDA39 (compound 30) were the most potent at CB(2). MDA42 was tested in a model of neuropathic pain and exhibited activity in the same range as that of MDA7. Preliminary ADMET studies for MDA7 were performed and did not reveal any problems.
摘要
我们最近发现并报道了一系列N-烷基异吲哚酮酰腙衍生物,它们是有效的大麻素受体2(CB(2))激动剂。为了改善这些化合物的类药物性质,并更好地理解和改进神经性疼痛的治疗,我们设计并合成了一系列带有不对称碳原子的新型2,3-二氢-1-苯并呋喃衍生物,它们表现为强效的选择性CB(2)激动剂。我们采用了多学科药物化学方法,并通过配体导向建模进行结合模式预测。对最具选择性的化合物MDA7(化合物18)的外消旋混合物进行了对映体分离和构型确定。结果显示,S对映体,即化合物MDA104(化合物33),是活性对映体。化合物MDA42(化合物19)和MDA39(化合物30)对CB(2)的活性最强。MDA42在神经性疼痛模型中进行了测试,其活性与MDA7处于同一范围。对MDA7进行了初步的药物代谢动力学、药物吸收、分布、代谢和排泄(ADMET)研究,未发现任何问题。
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