神经肽 S 拮抗剂的鉴定:构效关系研究、X 射线晶体学及体内评价
Identification of neuropeptide S antagonists: structure-activity relationship studies, X-ray crystallography, and in vivo evaluation.
作者信息
Hassler Carla, Zhang Yanan, Gilmour Brian, Graf Tyler, Fennell Timothy, Snyder Rodney, Deschamps Jeffrey R, Reinscheid Rainer K, Garau Celia, Runyon Scott P
机构信息
Research Triangle Institute , Post Office Box 12194, Research Triangle Park, North Carolina 27709-2194, United States.
出版信息
ACS Chem Neurosci. 2014 Aug 20;5(8):731-44. doi: 10.1021/cn500113c. Epub 2014 Jul 11.
Abstract
Modulation of the neuropeptide S (NPS) system has been linked to a variety of CNS disorders such as panic disorder, anxiety, sleeping disorders, asthma, obesity, PTSD, and substance abuse. In this study, a series of diphenyltetrahydro-1H-oxazolo[3,4-α]pyrazin-3(5H)-ones were synthesized and evaluated for antagonist activity at the neuropeptide S receptor. The absolute configuration was determined by chiral resolution of the key synthetic intermediate, followed by analysis of one of the individual enantiomers by X-ray crystallography. The R isomer was then converted to a biologically active compound (34) that had a Ke of 36 nM. The most potent compound displayed enhanced aqueous solubility compared with the prototypical antagonist SHA-68 and demonstrated favorable pharmacokinetic properties for behavioral assessment. In vivo analysis in mice indicated a significant blockade of NPS induced locomotor activity at an ip dose of 50 mg/kg. This suggests that analogs having improved drug-like properties will facilitate more detailed studies of the neuropeptide S receptor system.
摘要
神经肽S(NPS)系统的调节与多种中枢神经系统疾病有关,如恐慌症、焦虑症、睡眠障碍、哮喘、肥胖症、创伤后应激障碍和药物滥用。在本研究中,合成了一系列二苯基四氢-1H-恶唑并[3,4-α]吡嗪-3(5H)-酮,并评估了它们对神经肽S受体的拮抗活性。通过关键合成中间体的手性拆分确定绝对构型,然后通过X射线晶体学分析其中一种对映体。然后将R异构体转化为生物活性化合物(34),其Ke为36 nM。与原型拮抗剂SHA-68相比,最有效的化合物表现出增强的水溶性,并显示出有利于行为评估的药代动力学性质。小鼠体内分析表明,腹腔注射剂量为50 mg/kg时,NPS诱导的运动活性受到显著阻断。这表明具有改善类药物性质的类似物将有助于对神经肽S受体系统进行更详细的研究。
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