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发现氨基环己烯类似物作为用于镇痛的选择性且口服生物可利用的hNav1.7抑制剂。

Discovery of aminocyclohexene analogues as selective and orally bioavailable hNav1.7 inhibitors for analgesia.

作者信息

Teng Mingxing, Wu Wentao, Li Zhixiang, Yang Guangwen, Qin Jian, Wang Yikai, Hu Zhijing, Dong Haiheng, Hou Lijuan, Hu Guoping, Shen Liang, Zhang Yang, Li Jian, Chen Shuhui, Tian Jingwei, Ye Liang, Zhang Jianzhao, Wang Hongbo

机构信息

WuXi AppTec (Shanghai) Co., Ltd., 288 FuTe Zhong Road, Shanghai 200131, People's Republic of China.

WuXi AppTec (Shanghai) Co., Ltd., 288 FuTe Zhong Road, Shanghai 200131, People's Republic of China.

出版信息

Bioorg Med Chem Lett. 2017 Nov 15;27(22):4979-4984. doi: 10.1016/j.bmcl.2017.10.010. Epub 2017 Oct 7.

DOI:10.1016/j.bmcl.2017.10.010
PMID:29037948
Abstract

hNav1.7 receives a lot of attention owing to its attractive mechanism of action in pain processing pathway. We have previously reported our design of a novel series of tetrahydropyridine analogues towards hNav1.7 selective inhibitors. Herein, we disclose further efforts to the optimization of hit compound (-)-6, which led to the identification of aminocyclohexene analogues (-)-9 and (-)-17 with good potency, high selectivity, and minimal CYP inhibition. Both compounds (-)-9 and (-)-17 demonstrated improved pharmacokinetic profiles in rats, and robust efficacy in rat formalin-induced nociception and spinal nerve ligation (SNL) models.

摘要

hNav1.7因其在疼痛处理途径中具有吸引力的作用机制而备受关注。我们之前报道了针对hNav1.7选择性抑制剂的一系列新型四氢吡啶类似物的设计。在此,我们披露了对命中化合物(-)-6进行优化的进一步研究,这导致了具有良好效力、高选择性和最小CYP抑制作用的氨基环己烯类似物(-)-9和(-)-17的鉴定。化合物(-)-9和(-)-17在大鼠中均表现出改善的药代动力学特征,并且在大鼠福尔马林诱导的伤害感受和脊髓神经结扎(SNL)模型中具有强大的疗效。

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