使用性质导向优化方法开发中枢神经系统活性 LRRK2 抑制剂。

The development of CNS-active LRRK2 inhibitors using property-directed optimisation.

机构信息

School of Chemistry, The University of Sydney, Sydney, NSW 2006, Australia.

出版信息

Bioorg Med Chem Lett. 2013 Jul 1;23(13):3690-6. doi: 10.1016/j.bmcl.2013.04.086. Epub 2013 May 9.

DOI:10.1016/j.bmcl.2013.04.086

Abstract

Mutations in PARK8/LRRK2 are the most common genetic cause of Parkinson's disease. Inhibition of LRRK2 kinase activity has neuroprotective benefits, and provides a means of addressing the underlying biochemical cause of Parkinson's disease for the first time. Initial attempts to develop LRRK2 inhibitors were largely unsuccessful and highlight shortcomings intrinsic to traditional, high throughput screening methods of lead discovery. Recently, amino-pyrimidine GNE-7915 was reported as a potent (IC50=9 nM) selective (1/187 kinases), brain-penetrant and non-toxic inhibitor of LRRK2. The use of in silico modelling, extensive in vitro assays and resource-efficient in vivo techniques to produce GNE-7915, reflects a trend towards the concerted optimisation of potency, selectivity and pharmacokinetic properties in early-stage drug development.

摘要

PARK8/LRRK2 突变是帕金森病最常见的遗传原因。抑制 LRRK2 激酶活性具有神经保护作用，为首次提供了针对帕金森病根本生化原因的治疗方法。最初开发 LRRK2 抑制剂的尝试在很大程度上失败了，这凸显了传统高通量筛选方法在发现先导化合物方面的固有缺陷。最近，氨基嘧啶 GNE-7915 被报道为一种有效的（IC50=9 nM）选择性（1/187 种激酶）、可穿透血脑屏障且无毒的 LRRK2 抑制剂。使用计算机模拟、广泛的体外测定和资源高效的体内技术来生产 GNE-7915，反映了在药物开发早期阶段协同优化效力、选择性和药代动力学特性的趋势。

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使用性质导向优化方法开发中枢神经系统活性 LRRK2 抑制剂。

The development of CNS-active LRRK2 inhibitors using property-directed optimisation.

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