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发现用于肿瘤学的强效和选择性MTH1抑制剂:实现快速的靶点(去)验证

Discovery of Potent and Selective MTH1 Inhibitors for Oncology: Enabling Rapid Target (In)Validation.

作者信息

Farand Julie, Kropf Jeffrey E, Blomgren Peter, Xu Jianjun, Schmitt Aaron C, Newby Zachary E, Wang Ting, Murakami Eisuke, Barauskas Ona, Sudhamsu Jawahar, Feng Joy Y, Niedziela-Majka Anita, Schultz Brian E, Schwartz Karen, Viatchenko-Karpinski Serge, Kornyeyev Dmytro, Kashishian Adam, Fan Peidong, Chen Xiaowu, Lansdon Eric B, Ports Michael O, Currie Kevin S, Watkins William J, Notte Gregory T

机构信息

Gilead Sciences, Inc. 333 Lakeside Drive, Foster City, California 94404, United States.

Gilead Sciences, Inc. 199 East Blaine Street, Seattle, Washington 98102, United States.

出版信息

ACS Med Chem Lett. 2019 Nov 19;11(3):358-364. doi: 10.1021/acsmedchemlett.9b00420. eCollection 2020 Mar 12.

DOI:10.1021/acsmedchemlett.9b00420
PMID:32184970
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7074220/
Abstract

We describe the discovery of three structurally differentiated potent and selective MTH1 inhibitors and their subsequent use to investigate MTH1 as an oncology target, culminating in target (in)validation. Tetrahydronaphthyridine was rapidly identified as a highly potent MTH1 inhibitor (IC = 0.043 nM). Cocrystallization of with MTH1 revealed the ligand in a Φ---(pyridin-2-yl)acetamide conformation enabling a key intramolecular hydrogen bond and polar interactions with residues Gly34 and Asp120. Modification of literature compound with - and -linked aryl and alkyl aryl substituents led to the discovery of potent pyrimidine-2,4,6-triamine (IC = 0.49 nM). Triazolopyridine emerged as a highly selective lead compound with a suitable profile and desirable pharmacokinetic properties in rat. Elucidation of the DNA damage response, cell viability, and intracellular concentrations of oxo-NTPs (oxidized nucleoside triphosphates) as a function of MTH1 knockdown and/or small molecule inhibition was studied. Based on our findings, we were unable to provide evidence to further pursue MTH1 as an oncology target.

摘要

我们描述了三种结构不同的强效且选择性的MTH1抑制剂的发现,以及随后将它们用于研究MTH1作为肿瘤学靶点的过程,最终完成了靶点的(去)验证。四氢萘啶很快被鉴定为一种高效的MTH1抑制剂(IC = 0.043 nM)。它与MTH1的共结晶显示配体呈Φ---(吡啶-2-基)乙酰胺构象,形成了一个关键的分子内氢键,并与残基Gly34和Asp120发生极性相互作用。用与芳基和烷基芳基相连的取代基对文献报道的化合物进行修饰,导致发现了强效的嘧啶-2,4,6-三胺(IC = 0.49 nM)。三唑并吡啶成为一种高度选择性的先导化合物,在大鼠体内具有合适的特性和理想的药代动力学性质。研究了作为MTH1基因敲低和/或小分子抑制作用函数的DNA损伤反应、细胞活力以及氧化型核苷三磷酸(oxo-NTPs)的细胞内浓度。基于我们的发现,我们无法提供进一步将MTH1作为肿瘤学靶点进行研究的证据。

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