基于结构的设计和并行化学在鉴定强效、选择性和脑穿透性磷酸二酯酶 2A 抑制剂中的应用。

Application of Structure-Based Design and Parallel Chemistry to Identify a Potent, Selective, and Brain Penetrant Phosphodiesterase 2A Inhibitor.

机构信息

Pfizer Worldwide Research and Development , Eastern Point Road, Groton, Connecticut 06340, United States.

Pfizer Worldwide Research and Development , 610 Main Street, Cambridge, Massachusetts 02139, United States.

出版信息

J Med Chem. 2017 Jul 13;60(13):5673-5698. doi: 10.1021/acs.jmedchem.7b00397. Epub 2017 Jun 16.

DOI:10.1021/acs.jmedchem.7b00397

PMID:28574706

Abstract

Phosphodiesterase 2A (PDE2A) inhibitors have been reported to demonstrate in vivo activity in preclinical models of cognition. To more fully explore the biology of PDE2A inhibition, we sought to identify potent PDE2A inhibitors with improved brain penetration as compared to current literature compounds. Applying estimated human dose calculations while simultaneously leveraging synthetically enabled chemistry and structure-based drug design has resulted in a highly potent, selective, brain penetrant compound 71 (PF-05085727) that effects in vivo biochemical changes commensurate with PDE2A inhibition along with behavioral and electrophysiological reversal of the effects of NMDA antagonists in rodents. This data supports the ability of PDE2A inhibitors to potentiate NMDA signaling and their further development for clinical cognition indications.

摘要

磷酸二酯酶 2A（PDE2A）抑制剂已在认知的临床前模型中表现出体内活性。为了更全面地探索 PDE2A 抑制的生物学特性，我们试图寻找与现有文献化合物相比具有更好脑穿透性的强效 PDE2A 抑制剂。在应用估计的人体剂量计算的同时，同时利用可合成的化学和基于结构的药物设计，得到了一种高活性、选择性、脑穿透性化合物 71（PF-05085727），其在体内产生的生化变化与 PDE2A 抑制相一致，同时逆转了 NMDA 拮抗剂在啮齿动物中的行为和电生理作用。这些数据支持 PDE2A 抑制剂增强 NMDA 信号的能力及其进一步开发用于临床认知适应症。

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基于结构的设计和并行化学在鉴定强效、选择性和脑穿透性磷酸二酯酶 2A 抑制剂中的应用。

Application of Structure-Based Design and Parallel Chemistry to Identify a Potent, Selective, and Brain Penetrant Phosphodiesterase 2A Inhibitor.

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