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MK-1468 的发现:一种强效、激酶选择性、可穿透血脑屏障的酰胺异喹啉 LRRK2 抑制剂,有望用于治疗帕金森病。

Discovery of MK-1468: A Potent, Kinome-Selective, Brain-Penetrant Amidoisoquinoline LRRK2 Inhibitor for the Potential Treatment of Parkinson's Disease.

机构信息

Merck & Co., Inc., 33 Avenue Louis Pasteur, Boston, Massachusetts 02115, United States.

Merck & Co., Inc., 126 E. Lincoln Ave., Rahway, New Jersey 07065, United States.

出版信息

J Med Chem. 2023 Nov 9;66(21):14912-14927. doi: 10.1021/acs.jmedchem.3c01486. Epub 2023 Oct 20.

DOI:10.1021/acs.jmedchem.3c01486
PMID:37861679
Abstract

Genetic mutation of the leucine-rich repeat kinase 2 (LRRK2) protein has been associated with Parkinson's disease (PD), a disabling and progressive neurodegenerative disorder that is devoid of efficacious disease-modifying therapies. Herein, we describe the invention of an amidoisoquinoline (IQ)-derived LRRK2 inhibitor lead chemical series. Knowledge-, structure-, and property-based drug design in concert with rigorous application of calculations and presynthesis predictions enabled the prioritization of molecules with favorable CNS "drug-like" physicochemical properties. This resulted in the discovery of compound , which was profiled extensively before human ether-a-go-go (hERG) ion channel inhibition halted its progression. Strategic reduction of lipophilicity and basicity resulted in attenuation of hERG ion channel inhibition while maintaining a favorable CNS efflux transporter profile. Further structure- and property-based optimizations resulted in the discovery of preclinical candidate . This exquisitely selective LRRK2 inhibitor has a projected human dose of 48 mg BID and a preclinical safety profile that supported advancement toward GLP toxicology studies.

摘要

LRRK2 蛋白的亮氨酸丰富重复激酶 2(LRRK2)基因突变与帕金森病(PD)有关,PD 是一种使人致残且进行性神经退行性疾病,目前尚无有效的疾病修饰疗法。在此,我们描述了一种基于酰胺异喹啉(IQ)的 LRRK2 抑制剂先导化学系列的发明。基于知识、结构和性质的药物设计与计算和预合成预测的严格应用相结合,使具有有利的中枢神经系统“类药性”物理化学性质的分子得到了优先考虑。这导致了化合物的发现,在人 Ether-a-go-go(hERG)离子通道抑制使其无法继续前进之前,对其进行了广泛的剖析。亲脂性和碱性的战略性降低导致 hERG 离子通道抑制作用减弱,同时保持有利的中枢神经系统外排转运体特征。进一步的基于结构和性质的优化导致了临床前候选药物的发现。这种高选择性的 LRRK2 抑制剂预计人类剂量为 48 毫克,每日两次,具有临床前安全性特征,支持向 GLP 毒理学研究推进。

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