Benzylhydroxamic acids as inhibitors of insulin regulated aminopeptidase (IRAP)

Julia Beveridge , Marcus Söderström , Rubén Prieto-Díaz , Hugo Gutierrez-de-Teran , Luke R. Odell , Mathias Hallberg , Mats Larhed , Johan Gising
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Abstract

With the objective of finding new classes of cognitive enhancers with potential for the treatment of neurodegenerative disorders, such as Alzheimer's disease, small molecule inhibitors of insulin-regulated aminopeptidase (IRAP) were designed and synthesized. IRAP is a member of the M1 family of zinc aminopeptidases and is abundantly expressed in areas of the brain associated with cognition, such as the amygdala, hippocampus and cerebral cortex. IRAP inhibitors were previously shown to enhance memory and learning in animal models. A comprehensive high throughput screening of 400,000 small molecules from the European Lead Factory library provided a series of 50 promising compounds in a qualified hit list (QHL). More than 30 IRAP inhibitors with an IC50 below 3.5 μM were identified. Herein, selected compounds from this QHL were assayed for solubility and permeability. Most of the selected compounds displayed good solubility, but further permeability studies on the best compounds revealed low blood brain barrier (BBB) permeability and high efflux in cells overexpressing P-gp pumps, rendering them less promising as starting points in drug discovery processes. Two compounds from the QHL were prioritized for further structural optimization; the pyridyl-substituted isoxazole 1a (QHL27) and the benzylhydroxamic acid derivative 1b (QHL1), both demonstrating fair BBB permeability and no indication of efflux. While our attempts to improve the isoxazole derivative 1a were not fruitful, a structural modification of 1b to provide the chloro-substituted benzylhydroxamic acid 14b resulted in a ten-fold improvement of the IRAP inhibition with an IC50 value of 60 nM. The binding modes of 1b and 14b were determined by free energy perturbation (FEP) analysis performed on candidate docking poses, determining a binding mode that accurately explained the experimental SAR. Further FEP studies of compound 14b suggested that it exhibits selectivity towards IRAP over Aminopeptidase N (APN), indicating its potential for targeted therapeutic applications.

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作为胰岛素调节氨肽酶(IRAP)抑制剂的苄基羟肟酸
为了寻找具有治疗神经退行性疾病(如阿尔茨海默病)潜力的新型认知增强剂,我们设计并合成了胰岛素调节氨肽酶(IRAP)的小分子抑制剂。IRAP 是锌氨肽酶 M1 家族的成员,在杏仁核、海马和大脑皮层等与认知相关的大脑区域大量表达。IRAP 抑制剂曾被证明能增强动物模型的记忆和学习能力。对欧洲铅工厂(European Lead Factory)库中的 40 万个小分子进行了全面的高通量筛选,在合格的命中清单(QHL)中发现了一系列 50 个有前景的化合物。其中发现了 30 多种 IC50 低于 3.5 μM 的 IRAP 抑制剂。在此,我们对从该 QHL 中选出的化合物进行了溶解性和渗透性检测。大多数入选化合物显示出良好的溶解性,但对最佳化合物进行的进一步渗透性研究显示,它们在血脑屏障(BBB)中的渗透性较低,在过表达 P-gp 泵的细胞中的外流率较高,因此不太有希望成为药物发现过程中的起点。QHL 中的两个化合物被优先用于进一步的结构优化:吡啶基取代的异噁唑 1a (QHL27) 和苄基羟肟酸衍生物 1b (QHL1),这两个化合物都显示出较好的 BBB 渗透性,并且没有外流迹象。虽然我们对异噁唑衍生物 1a 的改良尝试没有结果,但对 1b 进行结构改良以提供氯代苄基羟肟酸 14b 后,IRAP 抑制作用提高了 10 倍,IC50 值为 60 nM。通过对候选对接姿势进行自由能扰动(FEP)分析,确定了 1b 和 14b 的结合模式,并确定了一种能准确解释实验 SAR 的结合模式。对化合物 14b 的进一步自由能扰动研究表明,它对 IRAP 比对氨基肽酶 N(APN)具有选择性,这表明它具有靶向治疗应用的潜力。
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