新型亚型选择性IP6K1抑制剂的合成与表征

Synthesis and characterization of novel isoform-selective IP6K1 inhibitors.

作者信息

Wormald Michael M, Ernst Glen, Wei Huijun, Barrow James C

机构信息

Department of Pharmacology and Molecular Sciences, Johns Hopkins University School of Medicine, 855 North Wolfe Street, Baltimore, MD 21205, USA.

Lieber Institute for Brain Development, 855 North Wolfe Street, Baltimore, MD 21205, USA.

出版信息

Bioorg Med Chem Lett. 2019 Oct 1;29(19):126628. doi: 10.1016/j.bmcl.2019.126628. Epub 2019 Aug 20.

DOI:10.1016/j.bmcl.2019.126628

PMID:31445853

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6745243/

Abstract

Inositol hexakisphosphate kinases (IP6Ks) have been increasingly studied as therapeutically interesting enzymes. IP6K isoform specific knock-outs have been used to successfully explore inositol pyrophosphate physiology and related pathologies. A pan-IP6K inhibitor, N2-(m-trifluorobenzyl)-N6-(p-nitrobenzyl) purine (TNP), has been used to confirm phenotypes observed in genetic knock-out experiments; however, it suffers by having modest potency and poor solubility making it difficult to handle for in vitro applications in the absence of DMSO. Moreover, TNP's pan-IP6K inhibitory profile does not inform which IP6K isoform is responsible for which phenotypes. In this report we describe a series of purine-based isoform specific IP6K1 inhibitors. The lead compound was identified after multiple rounds of SAR and has been found to selectively inhibit IP6K1 over IP6K2 or IP6K3 using biochemical and biophysical approaches. It also boasts increased solubility and IP6K1 potency over TNP. These new compounds are useful tools for additional assay development and exploration of IP6K1 specific biology.

摘要

肌醇六磷酸激酶（IP6Ks）作为具有治疗意义的酶，受到了越来越多的研究。IP6K亚型特异性基因敲除已被用于成功探索肌醇焦磷酸生理学及相关病理情况。一种泛IP6K抑制剂，N2-（间三氟苄基）-N6-（对硝基苄基）嘌呤（TNP），已被用于确认在基因敲除实验中观察到的表型；然而，它存在效力适中且溶解性差的问题，这使得在没有二甲基亚砜（DMSO）的情况下进行体外应用时难以操作。此外，TNP的泛IP6K抑制谱并不能表明哪种IP6K亚型导致了哪种表型。在本报告中，我们描述了一系列基于嘌呤的IP6K1亚型特异性抑制剂。先导化合物是经过多轮构效关系研究后确定的，已发现它使用生化和生物物理方法对IP6K1的抑制作用优于IP6K2或IP6K3。与TNP相比，它还具有更高的溶解度和对IP6K1的效力。这些新化合物是用于进一步开展检测方法开发和探索IP6K1特异性生物学的有用工具。

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