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4 results on '"Kurtis Berry"'

1. A Fully Automated [35S]GTPγS Scintillation Proximity Assay for the High-Throughput Screening of Gi-Linked G Protein-Coupled Receptors

Author

Hisashi Ota, Richard Peltier, Kurtis Berry, Paul Zuck, Berta Strulovici, Marc Ferrer, Suzanne M. Mandala, Hugh Rosen, James Inglese, Garrett D. Kolodin, and Satoshi Ozaki

Subjects
Drug discovery, High-throughput screening, SUPERFAMILY, Computational biology, Biology, Sulfur Radioisotopes, Molecular biology, Receptors, G-Protein-Coupled, Automation, Radioligand Assay, Scintillation proximity assay, Fully automated, Guanosine 5'-O-(3-Thiotriphosphate), Drug Discovery, Molecular targets, Combinatorial Chemistry Techniques, Scintillation Counting, Molecular Medicine, Biological Assay, human activities, G protein-coupled receptor
Abstract

The diversity of physiological functions mediated by the GPCR superfamily provides a rich source of molecular targets for drug discovery programs. Consequently, a variety of assays have been designed to identify lead molecules based on ligand binding or receptor function. In one of these, the binding of [(35)S]GTPgammaS, a nonhydrolyzable analogue of GTP, to receptor-activated G-protein alpha subunits represents a unique functional assay for GPCRs and is well suited for use with automated HTS. Here we compare [(35)S]GTPgammaS scintillation proximity binding assays for two different G(i)-coupled GPCRs, and describe their implementation with automated high-throughput systems.

Published
2003

2. Miniaturization of intracellular calcium functional assays to 1536-well plate format using a fluorometric imaging plate reader

Author

Peter Hodder, Jason Cassaday, Kurtis Berry, Berta Strulovici, and Rebecca Mull

Subjects
0301 basic medicine, Agonist, Carbachol, medicine.drug_class, chemistry.chemical_element, Calcium, 01 natural sciences, Biochemistry, Calcium in biology, Fluorescence, Analytical Chemistry, 03 medical and health sciences, GTP-Binding Proteins, Muscarinic acetylcholine receptor, medicine, Animals, Receptor, Calcium metabolism, Miniaturization, Chemistry, Molecular biology, Receptors, Muscarinic, 0104 chemical sciences, Rats, 010404 medicinal & biomolecular chemistry, 030104 developmental biology, Biophysics, Molecular Medicine, Plate reader, Biotechnology, medicine.drug
Abstract

The measurement of intracellular calcium response transients in living mammalian cells is a popular functional assay for identification of agonists and antagonists to receptors or channels of pharmacological interest. In recent years, advances in fluorescence-based detection techniques and automation technologies have facilitated the adaptation of this assay to 384-well microplate format high-throughput screening (HTS) assays. However, the cost and time required performing the intracellular calcium HTS assays in the 384-well format can be prohibitive for HTS campaigns of greater than 1 x 10(6) wells. For these reasons, it is attractive to miniaturize intracellular calcium functional assays to the 1536-well microplate format, where assay volumes and plate throughput can be decreased by several fold. The focus of the research described in this article is the miniaturization of an intracellular calcium assay to 1536-well plate format. This was accomplished by modifying the hardware and software of a fluorometric imaging plate reader (FLIPR) to enable transfer of nanoliters of test compound directly to a 1536-well assay plate, and measure the resulting calcium response from all 1536 wells simultaneously. An intracellular calcium functional assay against the rat muscarinic acetylcholine receptor subtype 1 (rmAchR1) G-protein coupled receptor (GPCR) was miniaturized and executed on this modified instrument. In experiments measuring the activity of known muscarinic receptor agonists and antagonists, the miniaturized FLIPR assay gave EC(50) and IC(50) values and rank order potency comparable to the 384-well format assays. Calculated Z' factors for the miniaturized agonist and antagonist assays were, respectively, 0.56 +/- 0.21 and 0.53 +/- 0.22, which were slightly higher (Z'(agonist) = 0.55 +/- 0.33) and lower (Z'(antagonist) = 0.70 +/- 0.18) than the corresponding values in the 384-well assays. A mock agonist HTS campaign against the muscarinic receptor in miniaturized format was able to identify all wells spiked with the rmAchR1 agonist carbachol.

Published
2004

3. Identification of metabotropic glutamate receptor antagonists using an automated high-throughput screening system

Author

Bradley P. Feuston, C. Bayly, Kurtis Berry, Richard Peltier, Jason Cassaday, Carla Suto, Chris Culberson, James Inglese, Berta Strulovici, Nicholas D. P. Cosford, Mark A. Varney, Leo Bleicher, and Peter Hodder

Subjects
Nervous system, Functional assay, Intracellular Fluid, Photomicrography, High-throughput screening, Receptor, Metabotropic Glutamate 5, Biophysics, Glutamic Acid, Biology, Pharmacology, Receptors, Metabotropic Glutamate, Transfection, Biochemistry, Sensitivity and Specificity, Calcium in biology, Fluorescence, Cell Line, medicine, Humans, Fluorometry, Molecular Biology, Fluorescent Dyes, Dose-Response Relationship, Drug, Cell Biology, Kinetics, medicine.anatomical_structure, Fully automated, Metabotropic glutamate receptor, Calcium, Excitatory Amino Acid Antagonists
Abstract

Antagonists to the human metabotropic glutamate receptor subtype 5 a (mGluR 5a ) have been implicated as potential therapeutics for the treatment of a variety of nervous system disorders, including pain, anxiety, and Parkinson’s disease. To discover novel antagonists to the mGluR 5a , a functional assay measuring agonist-induced intracellular calcium release was developed. The assay was used for the high-throughput screening of a large collection of compounds in single wells using a fully automated robotic platform. Primary high-throughput screening hits were subjected to a combination of data analysis and counterscreening assays to identify several compounds with both efficacy and selectivity for the metabotropic glutamate receptor target.

Published
2003

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