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基于高密度荧光偏振的锥虫RNA三磷酸酶TbCet1检测方法的开发与验证

Development and validation of a high-density fluorescence polarization-based assay for the trypanosoma RNA triphosphatase TbCet1.

作者信息

Antczak Christophe, Shum David, Radu Constantin, Seshan Venkatraman E, Djaballah Hakim

机构信息

High Throughput Screening Core Facility, Molecular Pharmacology and Chemistry Program, Memorial Sloan-Kettering Cancer Center, 1275 York Avenue, New York, NY 10065, USA.

出版信息

Comb Chem High Throughput Screen. 2009 Mar;12(3):258-68. doi: 10.2174/138620709787581729.

DOI:10.2174/138620709787581729
PMID:19275531
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3626118/
Abstract

RNA triphosphatases are attractive and mostly unexplored therapeutic targets for the development of broad spectrum antiprotozoal, antiviral and antifungal agents. The use of malachite green as a readout for phosphatases is well characterized and widely employed. However, the reaction depends on high quantities of inorganic phosphate to be generated, which makes this assay not easily amenable to screening in 1536-well format. The overly long reading times required also prohibit its use to screen large chemical libraries. To overcome these limitations, we sought to develop a fluorescence polarization (FP) -based assay for triphosphatases, compatible with miniaturization and fast readouts. For this purpose, we took advantage of the nucleoside triphosphatase activity of this class of enzyme to successfully adapt the Transcreener ADP assay based on the detection of generated ADP by immunocompetition fluorescence polarization to the RNA triphosphatase TbCet1 in 1536-well format. We also tested the performance of this newly developed assay in a pilot screen of 3,000 compounds and we confirmed the activity of the obtained hits. We present and discuss our findings and their importance for the discovery of novel drugs by high throughput screening.

摘要

RNA三磷酸酶是开发广谱抗寄生虫、抗病毒和抗真菌药物颇具吸引力且大多未被探索的治疗靶点。使用孔雀石绿作为磷酸酶的检测指标已得到充分表征且广泛应用。然而,该反应依赖于生成大量的无机磷酸盐,这使得该检测方法不易适用于1536孔板形式的筛选。所需的过长读数时间也限制了其用于筛选大型化学文库。为克服这些限制,我们试图开发一种基于荧光偏振(FP)的三磷酸酶检测方法,该方法与小型化和快速读数兼容。为此,我们利用这类酶的核苷三磷酸酶活性,成功地将基于免疫竞争荧光偏振检测生成的ADP的Transcreener ADP检测方法以1536孔板形式应用于RNA三磷酸酶TbCet1。我们还在对3000种化合物的初步筛选中测试了这种新开发检测方法的性能,并确认了所获命中化合物的活性。我们展示并讨论了我们的研究结果及其对通过高通量筛选发现新药的重要性。

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