Development of a 5-hydroxytryptamine(2A) receptor binding assay for high throughput screening using 96-well microfilter plates.

Q2 Chemistry

Journal of Biomolecular Screening Pub Date : 2000-08-01 DOI:10.1089/108705700416146

A. Harms, D. Gündisch, C. Müller, K. Kovar

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引用次数: 2

Abstract

A high throughput screening method for the analysis of 5-hydroxytryptamine(2A) (5-HT(2A)) receptor binding parameters has been developed, using 96-well filter plates of the Millipore MultiScreen system in combination with a MicroBeta PLUS microplate scintillation counter. MAFB filter plates (GF/B filter over a Durapore membrane) were used because of the lower nonspecific binding of the radioligand to GF/B filter material than to GF/C filters. Comparing different scintillation cocktails, highest counting efficiency and shortest equilibration time were detected with Betaplatescint, after drying the plates at 50 degrees C for 2 h. Measuring the plates without the plastic underdrain increased the counting efficiency by about 39% as compared with counting the plate with the underdrain intact. Presoaking the wells with 0.5% polyethyleneimine for 2 h reduced the nonspecific binding to the filter material by about 50%. A linear relationship of protein concentration and radioligand binding was established up to a protein concentration of 165 microg of protein/well. In the assays, 70 microg of protein/well was generally used, which has turned out to be favorable with respect to the number of counts obtained. When a higher concentration of protein was used, the period of time needed to aspirate the plate was too long because of obstruction of the filter material. Receptor-radioligand equilibration was reached after about 20 min at concentrations less than 0.05 nM [(3)H]ketanserin-HCl; at higher concentrations it was reached after about 10 min. Saturation analysis of [(3)H]ketanserin-HCl resulted in a mean B(max) of 393 fmol/mg protein and a K(D) of 2.0 nM using rat frontal cortex as a receptor source. Competition experiments with known 5-HT(2A) receptor ligands-DOB-HCl (K(i) = 59 nM), DOET-HCl (K(i) = 137 nM), DOM-HCl (K(i) = 533 nM), DMT (K(i) = 1,985 nM), and TMA-HCl (K(i) = 22,340 nM)-were in accordance with literature values.

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用96孔微滤板高通量筛选5-羟色胺(2A)受体结合试验的建立。

利用Millipore MultiScreen系统的96孔滤板结合MicroBeta PLUS微孔板闪烁计数器，开发了一种高通量筛选方法，用于分析5-羟色胺(2A) (5-HT(2A))受体结合参数。由于放射性配体与GF/B滤料的非特异性结合比与GF/C滤料的非特异性结合更低，因此使用了MAFB滤板(Durapore膜上的GF/B滤料)。对比不同的闪烁鸡尾酒，在50℃下干燥2小时后，使用Betaplatescint检测到最高的计数效率和最短的平衡时间。测量没有塑料下漏的板比计数下漏完好的板提高了约39%的计数效率。用0.5%聚乙烯亚胺预浸孔2小时可使滤料的非特异性结合减少约50%。当蛋白质浓度为165 μ g /孔时，蛋白质浓度与放射配体结合呈线性关系。在分析中，通常使用70微克/孔的蛋白质，这已被证明是有利的计数获得的数量。当使用较高浓度的蛋白质时，由于过滤材料的阻塞，吸出板所需的时间过长。在浓度小于0.05 nM [(3)H]酮色林-盐酸条件下，受体-辐射配体在约20分钟后达到平衡;以大鼠额叶皮质为受体源，[(3)H]ketanserin-HCl的饱和分析结果显示，平均B(max)为393 fmol/mg, K(D)为2.0 nM。已知5-HT(2A)受体配体dob - hcl (K(i) = 59 nM)、DOET-HCl (K(i) = 137 nM)、DOM-HCl (K(i) = 533 nM)、DMT (K(i) = 1985 nM)和TMA-HCl (K(i) = 22340 nM)的竞争实验与文献值一致。

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

Journal of Biomolecular Screening 生物-分析化学

CiteScore

2.41

自引率

0.00%

发文量

审稿时长

4-8 weeks

期刊介绍： Advancing the Science of Drug Discovery: 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.