Homogeneous time-resolved fluorescence-based assay to screen for ligands targeting the growth hormone secretagogue receptor type 1a

The growth hormone secretagogue receptor type 1a (GHS-R1a) belongs to class A G-protein-coupled receptors (GPCR). This receptor mediates pleiotropic effects of ghrelin and represents a promising target for dysfunctions of growth hormone secretion and energy homeostasis including obesity. Identificat...

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Veröffentlicht in:	Analytical biochemistry 2011-01, Vol.408 (2), p.253-262
Hauptverfasser:	Leyris, Jean-Philippe, Roux, Thomas, Trinquet, Eric, Verdié, Pascal, Fehrentz, Jean-Alain, Oueslati, Nadia, Douzon, Stéphanie, Bourrier, Emmanuel, Lamarque, Laurent, Gagne, Didier, Galleyrand, Jean-Claude, M’kadmi, Céline, Martinez, Jean, Mary, Sophie, Banères, Jean-Louis, Marie, Jacky
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Sprache:	eng
Schlagworte:	Binding, Competitive Chemical Sciences Coordination Complexes - chemistry Crown Ethers - chemistry Drug Inverse Agonism Fluorescence Resonance Energy Transfer - methods G protein-coupled receptor Ghrelin Growth hormone secretagogue receptor type 1a HEK293 Cells HTRF Humans Kinetics Ligand-binding Ligands Organic chemistry Receptors, Ghrelin - agonists Receptors, Ghrelin - antagonists & inhibitors Receptors, Ghrelin - metabolism SNAP-tag Tag-lite Terbium - chemistry TR-FRET
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container_title	Analytical biochemistry
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creator	Leyris, Jean-Philippe Roux, Thomas Trinquet, Eric Verdié, Pascal Fehrentz, Jean-Alain Oueslati, Nadia Douzon, Stéphanie Bourrier, Emmanuel Lamarque, Laurent Gagne, Didier Galleyrand, Jean-Claude M’kadmi, Céline Martinez, Jean Mary, Sophie Banères, Jean-Louis Marie, Jacky
description	The growth hormone secretagogue receptor type 1a (GHS-R1a) belongs to class A G-protein-coupled receptors (GPCR). This receptor mediates pleiotropic effects of ghrelin and represents a promising target for dysfunctions of growth hormone secretion and energy homeostasis including obesity. Identification of new compounds which bind GHS-R1a is traditionally achieved using radioactive binding assays. Here we propose a new fluorescence-based assay, called Tag-lite binding assay, based on a fluorescence resonance energy transfer (FRET) process between a terbium cryptate covalently attached to a SNAP-tag fused GHS-R1a (SNAP-GHS-R1a) and a high-affinity red fluorescent ghrelin ligand. The long fluorescence lifetime of the terbium cryptate allows a time-resolved detection of the FRET signal. The assay was made compatible with high-throughput screening by using prelabeled cells in suspension under a 384-well plate format. K i values for a panel of 14 compounds displaying agonist, antagonist, or inverse agonist properties were determined using both the radioactive and the Tag-lite binding assays performed on the same batches of GHS-R1a-expressing cells. Compound potencies obtained in the two assays were nicely correlated. This study is the first description of a sensitive and reliable nonradioactive binding assay for GHS-R1a in a format amenable to high-throughput screening.
doi_str_mv	10.1016/j.ab.2010.09.030
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This receptor mediates pleiotropic effects of ghrelin and represents a promising target for dysfunctions of growth hormone secretion and energy homeostasis including obesity. Identification of new compounds which bind GHS-R1a is traditionally achieved using radioactive binding assays. Here we propose a new fluorescence-based assay, called Tag-lite binding assay, based on a fluorescence resonance energy transfer (FRET) process between a terbium cryptate covalently attached to a SNAP-tag fused GHS-R1a (SNAP-GHS-R1a) and a high-affinity red fluorescent ghrelin ligand. The long fluorescence lifetime of the terbium cryptate allows a time-resolved detection of the FRET signal. The assay was made compatible with high-throughput screening by using prelabeled cells in suspension under a 384-well plate format. K i values for a panel of 14 compounds displaying agonist, antagonist, or inverse agonist properties were determined using both the radioactive and the Tag-lite binding assays performed on the same batches of GHS-R1a-expressing cells. Compound potencies obtained in the two assays were nicely correlated. 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This receptor mediates pleiotropic effects of ghrelin and represents a promising target for dysfunctions of growth hormone secretion and energy homeostasis including obesity. Identification of new compounds which bind GHS-R1a is traditionally achieved using radioactive binding assays. Here we propose a new fluorescence-based assay, called Tag-lite binding assay, based on a fluorescence resonance energy transfer (FRET) process between a terbium cryptate covalently attached to a SNAP-tag fused GHS-R1a (SNAP-GHS-R1a) and a high-affinity red fluorescent ghrelin ligand. The long fluorescence lifetime of the terbium cryptate allows a time-resolved detection of the FRET signal. The assay was made compatible with high-throughput screening by using prelabeled cells in suspension under a 384-well plate format. K i values for a panel of 14 compounds displaying agonist, antagonist, or inverse agonist properties were determined using both the radioactive and the Tag-lite binding assays performed on the same batches of GHS-R1a-expressing cells. Compound potencies obtained in the two assays were nicely correlated. 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This receptor mediates pleiotropic effects of ghrelin and represents a promising target for dysfunctions of growth hormone secretion and energy homeostasis including obesity. Identification of new compounds which bind GHS-R1a is traditionally achieved using radioactive binding assays. Here we propose a new fluorescence-based assay, called Tag-lite binding assay, based on a fluorescence resonance energy transfer (FRET) process between a terbium cryptate covalently attached to a SNAP-tag fused GHS-R1a (SNAP-GHS-R1a) and a high-affinity red fluorescent ghrelin ligand. The long fluorescence lifetime of the terbium cryptate allows a time-resolved detection of the FRET signal. The assay was made compatible with high-throughput screening by using prelabeled cells in suspension under a 384-well plate format. K i values for a panel of 14 compounds displaying agonist, antagonist, or inverse agonist properties were determined using both the radioactive and the Tag-lite binding assays performed on the same batches of GHS-R1a-expressing cells. Compound potencies obtained in the two assays were nicely correlated. This study is the first description of a sensitive and reliable nonradioactive binding assay for GHS-R1a in a format amenable to high-throughput screening.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>20937574</pmid><doi>10.1016/j.ab.2010.09.030</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0001-7078-1285</orcidid><orcidid>https://orcid.org/0000-0003-4416-2928</orcidid><orcidid>https://orcid.org/0000-0002-6064-3118</orcidid><orcidid>https://orcid.org/0000-0002-5807-0293</orcidid></addata></record>
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subjects	Binding, Competitive Chemical Sciences Coordination Complexes - chemistry Crown Ethers - chemistry Drug Inverse Agonism Fluorescence Resonance Energy Transfer - methods G protein-coupled receptor Ghrelin Growth hormone secretagogue receptor type 1a HEK293 Cells HTRF Humans Kinetics Ligand-binding Ligands Organic chemistry Receptors, Ghrelin - agonists Receptors, Ghrelin - antagonists & inhibitors Receptors, Ghrelin - metabolism SNAP-tag Tag-lite Terbium - chemistry TR-FRET
title	Homogeneous time-resolved fluorescence-based assay to screen for ligands targeting the growth hormone secretagogue receptor type 1a
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