基于N-(3-氯-4-(1,3-二氧代异吲哚啉-2-基)苯基)-3-甲基呋喃-2-甲酰胺骨架开发新型可穿透中枢神经系统的代谢型谷氨酸受体1(mGlu1)正变构调节剂,该调节剂可增强在精神分裂症患者中发现的野生型和突变型mGlu1受体。
Development of Novel, CNS Penetrant Positive Allosteric Modulators for the Metabotropic Glutamate Receptor Subtype 1 (mGlu1), Based on an N-(3-Chloro-4-(1,3-dioxoisoindolin-2-yl)phenyl)-3-methylfuran-2-carboxamide Scaffold, That Potentiate Wild Type and Mutant mGlu1 Receptors Found in Schizophrenics.
作者信息
Garcia-Barrantes Pedro M, Cho Hyekyung P, Niswender Colleen M, Byers Frank W, Locuson Charles W, Blobaum Anna L, Xiang Zixiu, Rook Jerri M, Conn P Jeffrey, Lindsley Craig W
机构信息
Department of Chemistry, Vanderbilt University , Nashville, Tennessee 37232-6600, United States.
出版信息
J Med Chem. 2015 Oct 22;58(20):7959-71. doi: 10.1021/acs.jmedchem.5b00727. Epub 2015 Oct 8.
Abstract
The therapeutic potential of selective mGlu1 activation is vastly unexplored relative to the other group I mGlu receptor, mGlu5; therefore, our lab has focused considerable effort toward developing mGlu1 positive allosteric modulators (PAMs) suitable as in vivo proof of concept tool compounds. Optimization of a series of mGlu1 PAMs based on an N-(3-chloro-4-(1,3-dioxoisoindolin-2-yl)phenyl)-3-methylfuran-2-carboxamide scaffold provided 17e, a potent (mGlu1 EC50 = 31.8 nM) and highly CNS penetrant (brain to plasma ratio (Kp) of 1.02) mGlu1 PAM tool compound, that potentiated not only wild-type human mGlu1 but also mutant mGlu1 receptors derived from deleterious GRM1 mutations found in schizophrenic patients. Moreover, both electrophysiological and in vivo studies indicate the mGlu1 ago-PAMs/PAMs do not possess the same epileptiform adverse effect liability as mGlu5 ago-PAMs/PAMs and maintain temporal activity suggesting a broader therapeutic window.
摘要
与另一类I型代谢型谷氨酸受体mGlu5相比,选择性激活mGlu1的治疗潜力尚未得到充分探索;因此,我们实验室投入了大量精力来开发适合作为体内概念验证工具化合物的mGlu1正变构调节剂(PAM)。基于N-(3-氯-4-(1,3-二氧代异吲哚啉-2-基)phenyl)-3-甲基呋喃-2-甲酰胺支架对一系列mGlu1 PAM进行优化,得到了17e,这是一种强效的(mGlu1 EC50 = 31.8 nM)且具有高度中枢神经系统渗透性(脑-血浆比率(Kp)为1.02)的mGlu1 PAM工具化合物,它不仅能增强野生型人mGlu1的活性,还能增强源自精神分裂症患者中发现的有害GRM1突变的突变型mGlu1受体的活性。此外,电生理和体内研究均表明,mGlu1 ago-PAM/PAM不像mGlu5 ago-PAM/PAM那样具有相同的癫痫样不良反应倾向,并且能维持时间活性,这表明其治疗窗口更宽。
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