根岸交叉偶联反应实现了新型烟酰胺腺嘌呤二核苷酸（NAD⁺）依赖性DNA连接酶抑制剂的合成及构效关系研究。

Negishi cross-coupling enabled synthesis of novel NAD(+)-dependent DNA ligase inhibitors and SAR development.

作者信息

Murphy-Benenato Kerry E, Gingipalli Lakshmaiah, Boriack-Sjodin P Ann, Martinez-Botella Gabriel, Carcanague Dan, Eyermann Charles J, Gowravaram Madhu, Harang Jenna, Hale Michael R, Ioannidis Georgine, Jahic Harris, Johnstone Michele, Kutschke Amy, Laganas Valerie A, Loch James T, Miller Matthew D, Oguto Herbert, Patel Sahil Joe

机构信息

Infection Innovative Medicines Unit, AstraZeneca R&D Boston, 35 Gatehouse Drive, Waltham, MA 02451, USA.

Oncology Innovative Medicines Unit, AstraZeneca R&D Boston, 35 Gatehouse Drive, Waltham, MA 02451, USA.

出版信息

Bioorg Med Chem Lett. 2015 Nov 15;25(22):5172-7. doi: 10.1016/j.bmcl.2015.09.075. Epub 2015 Oct 14.

DOI:10.1016/j.bmcl.2015.09.075

PMID:26463129

Abstract

Two novel compounds, pyridopyrimidines (1) and naphthyridines (2) were identified as potent inhibitors of bacterial NAD(+)-dependent DNA ligase (Lig) A in a fragment screening. SAR was guided by molecular modeling and X-ray crystallography. It was observed that the diaminonitrile pharmacophore made a key interaction with the ligase enzyme, specifically residues Glu114, Lys291, and Leu117. Synthetic challenges limited opportunities for diversification of the naphthyridine core, therefore most of the SAR was focused on a pyridopyrimidine scaffold. The initial diversification at R(1) improved both enzyme and cell potency. Further SAR developed at the R(2) position using the Negishi cross-coupling reaction provided several compounds, among these compounds 22g showed good enzyme potency and cellular potency.

摘要

在片段筛选中，两种新型化合物，即吡啶并嘧啶（1）和萘啶（2）被鉴定为细菌NAD⁺依赖性DNA连接酶（Lig）A的有效抑制剂。通过分子建模和X射线晶体学指导了构效关系（SAR）研究。观察到二氨基腈药效团与连接酶形成关键相互作用，特别是与Glu114、Lys291和Leu117残基。合成挑战限制了萘啶核心多样化的机会，因此大部分构效关系研究集中在吡啶并嘧啶支架上。R(1)处的初始多样化提高了酶活性和细胞活性。使用根岸交叉偶联反应在R(2)位置进一步开展的构效关系研究提供了几种化合物，其中化合物22g表现出良好的酶活性和细胞活性。

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根岸交叉偶联反应实现了新型烟酰胺腺嘌呤二核苷酸（NAD⁺）依赖性DNA连接酶抑制剂的合成及构效关系研究。

Negishi cross-coupling enabled synthesis of novel NAD(+)-dependent DNA ligase inhibitors and SAR development.

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