G Proteins in Reverse Mode: RECEPTOR-MEDIATED GTP RELEASE INHIBITS G PROTEIN AND EFFECTOR FUNCTION* |
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| Authors: | Leif G. Hommers Christoph Klenk Christian Dees Moritz B��nemann |
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| Affiliation: | From the Institute of Pharmacology & Toxicology, University of Würzburg, 97078 Würzburg, Germany |
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| Abstract: | Active G protein-coupled receptors activate heterotrimeric Gαβγ proteins by catalyzing the exchange of GDP by GTP at the Gα subunit. A paradoxical attenuation of G protein-activated inwardly rectifying potassium channels (GIRK) upon stimulation of native cells with high concentrations of agonist is known. However, a deactivation of activated G proteins by active receptors has not been experimentally studied in intact cells. We monitored GIRK currents and Go protein activation by means of fluorescence resonance energy transfer (FRET) in parallel. The results suggested that GIRK currents were paradoxically attenuated due to an inactivation of Go proteins by active α2A-adrenergic receptors. To study the mechanisms, G protein activation and receptor-G protein interactions were analyzed as a function of nucleotide type and nucleotide concentrations by means of FRET, while controlling intracellular nucleotides upon permeabilization of the cell membrane. Results suggested a receptor-catalyzed dissociation of GTP from activated heterotrimeric Gαβγ. Consequently, nucleotide-free G proteins were sequestrated in heterotrimeric conformation at the active receptor, thus attenuating downstream signaling in an agonist-dependent manner. |
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| Keywords: | Biophysics G Proteins/Heterotrimeric G Proteins/Coupled Receptors (GPCR) Membrane/Fluorescence Protein/Protein-Protein Interactions Receptors/Membrane Signal Transduction/G Proteins FRET |
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