A functional assay for G-protein-coupled receptors using stably transformed insect tissue culture cell lines

Insect cells are an underexplored resource for functional G-protein-coupled receptor (GPCR) assays, despite a strong record in biochemical (binding) assays. Here we describe the use of vectors capable of creating stably transformed insect cell lines to generate a cell-based functional GPCR assay. Th...

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Veröffentlicht in:Analytical biochemistry 2003-09, Vol.320 (1), p.88-103
Hauptverfasser: Knight, Peter J.K, Pfeifer, Tom A, Grigliatti, Tom A
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Sprache:eng
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Zusammenfassung:Insect cells are an underexplored resource for functional G-protein-coupled receptor (GPCR) assays, despite a strong record in biochemical (binding) assays. Here we describe the use of vectors capable of creating stably transformed insect cell lines to generate a cell-based functional GPCR assay. This assay employs the luminescent photoprotein aequorin and the promiscuous G-protein subunit Gα16 and is broadly applicable to human GPCRs. We demonstrate that the assay can quantitate ligand concentration–activity relationships for seven different human GPCRs, can differentiate between partial and full agonists, and can determine rank order potencies for both agonists and antagonists that match those seen with other assay systems. Human Gα16 improves signal strength but is not required for activity with some receptors. The coexpression of human and bovine βγ subunits and/or phospholipase Cβ makes no difference to agonist efficacy or potency. Two different receptors expressed in the same cell line respond to their specific agonists, and two different cell lines (Sf9 and High 5) are able to functionally detect the same expressed GPCR. Sf9 cells have the capability to produce fully functional human receptors, allied to a low background of endogenous receptors, and so are a valuable system for investigating orphan GPCRs and receptor dimerization.
ISSN:0003-2697
1096-0309
DOI:10.1016/S0003-2697(03)00354-3