Discovery of DTX3L inhibitors through a homogeneous FRET-based assay that monitors formation and removal of poly-ubiquitin chains

IF 2.7 4区 生物学 Q2 BIOCHEMICAL RESEARCH METHODS
Carlos Vela-Rodríguez, Ilaria Scarpulla, Yashwanth Ashok , Lari Lehtiö
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引用次数: 0

Abstract

Ubiquitination is a reversible protein post-translational modification in which consequent enzymatic activity results in the covalent linking of ubiquitin to a target protein. Once ubiquitinated, a protein can undergo multiple rounds of ubiquitination on multiple sites or form poly-ubiquitin chains. Ubiquitination regulates various cellular processes, and dysregulation of ubiquitination has been associated with more than one type of cancer. Therefore, efforts have been carried out to identify modulators of the ubiquitination cascade. Herein, we present the development of a FRET-based assay that allows us to monitor ubiquitination activity of DTX3L, a RING-type E3 ubiquitin ligase. Our method shows a good signal window with a robust average Z’ factor of 0.76 on 384-well microplates, indicating a good assay for screening inhibitors in a high-throughput setting. From a validatory screening experiment, we have identified the first molecules that inhibit DTX3L with potencies in the low micromolar range. We also demonstrate that the method can be expanded to study deubiquitinases, such as USP28, that reduce FRET due to hydrolysis of fluorescent poly-ubiquitin chains.

Abstract Image

Abstract Image

通过监测多泛素链形成和去除的基于同质 FRET 的测定发现 DTX3L 抑制剂
泛素化是一种可逆的蛋白质翻译后修饰,其结果是酶活性导致泛素与目标蛋白质共价连接。一旦泛素化,蛋白质可在多个位点上进行多轮泛素化,或形成多泛素链。泛素化调节各种细胞过程,泛素化失调与不止一种癌症有关。因此,人们一直在努力寻找泛素化级联的调节剂。在此,我们介绍了一种基于 FRET 的检测方法的开发情况,该方法允许我们监测 DTX3L(一种 RING 型 E3 泛素连接酶)的泛素化活性。我们的方法在 384 孔微孔板上显示出良好的信号窗口,平均 Z'因子为 0.76,表明这是一种在高通量环境中筛选抑制剂的好方法。在验证性筛选实验中,我们发现了第一批抑制 DTX3L 的分子,其效力在低微摩尔范围内。我们还证明这种方法可以扩展到研究去泛素酶,如 USP28,它可以通过水解荧光多泛素链来减少 FRET。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
SLAS Discovery
SLAS Discovery Chemistry-Analytical Chemistry
CiteScore
7.00
自引率
3.20%
发文量
58
审稿时长
39 days
期刊介绍: Advancing Life Sciences R&D: SLAS Discovery reports how scientists develop and utilize novel technologies and/or approaches to provide and characterize chemical and biological tools to understand and treat human disease. SLAS Discovery is a peer-reviewed journal that publishes scientific reports that enable and improve target validation, evaluate current drug discovery technologies, provide novel research tools, and incorporate research approaches that enhance depth of knowledge and drug discovery success. SLAS Discovery emphasizes scientific and technical advances in target identification/validation (including chemical probes, RNA silencing, gene editing technologies); biomarker discovery; assay development; virtual, medium- or high-throughput screening (biochemical and biological, biophysical, phenotypic, toxicological, ADME); lead generation/optimization; chemical biology; and informatics (data analysis, image analysis, statistics, bio- and chemo-informatics). Review articles on target biology, new paradigms in drug discovery and advances in drug discovery technologies. SLAS Discovery is of particular interest to those involved in analytical chemistry, applied microbiology, automation, biochemistry, bioengineering, biomedical optics, biotechnology, bioinformatics, cell biology, DNA science and technology, genetics, information technology, medicinal chemistry, molecular biology, natural products chemistry, organic chemistry, pharmacology, spectroscopy, and toxicology. SLAS Discovery is a member of the Committee on Publication Ethics (COPE) and was published previously (1996-2016) as the Journal of Biomolecular Screening (JBS).
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