Quaternary structure of a G-protein-coupled receptor heterotetramer in complex with Gi and Gs

G-protein-coupled receptors (GPCRs), in the form of monomers or homodimers that bind heterotrimeric G proteins, are fundamental in the transfer of extracellular stimuli to intracellular signaling pathways. Different GPCRs may also interact to form heteromers that are novel signaling units. Despite t...

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Veröffentlicht in:	BMC biology 2016-04, Vol.14 (26), p.26-26, Article 26
Hauptverfasser:	Navarro, Gemma, Cordomí, Arnau, Zelman-Femiak, Monika, Brugarolas, Marc, Moreno, Estefania, Aguinaga, David, Perez-Benito, Laura, Cortés, Antoni, Casadó, Vicent, Mallol, Josefa, Canela, Enric I, Lluís, Carme, Pardo, Leonardo, García-Sáez, Ana J, McCormick, Peter J, Franco, Rafael
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Animals Cell receptors Cells Crystal structure Crystals Fluorescence G proteins HEK293 Cells Heterotrimeric GTP-Binding Proteins - chemistry Heterotrimeric GTP-Binding Proteins - metabolism Humans Influence Membrane proteins Models moleculars Molecular biology Molecular Dynamics Simulation Molecular models Protein Binding Protein Multimerization Protein Structure, Quaternary Proteins Proteïnes Receptors cel·lulars Receptors, Purinergic P1 - chemistry Receptors, Purinergic P1 - metabolism Signal transduction Structure
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container_title	BMC biology
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creator	Navarro, Gemma Cordomí, Arnau Zelman-Femiak, Monika Brugarolas, Marc Moreno, Estefania Aguinaga, David Perez-Benito, Laura Cortés, Antoni Casadó, Vicent Mallol, Josefa Canela, Enric I Lluís, Carme Pardo, Leonardo García-Sáez, Ana J McCormick, Peter J Franco, Rafael
description	G-protein-coupled receptors (GPCRs), in the form of monomers or homodimers that bind heterotrimeric G proteins, are fundamental in the transfer of extracellular stimuli to intracellular signaling pathways. Different GPCRs may also interact to form heteromers that are novel signaling units. Despite the exponential growth in the number of solved GPCR crystal structures, the structural properties of heteromers remain unknown. We used single-particle tracking experiments in cells expressing functional adenosine A1-A2A receptors fused to fluorescent proteins to show the loss of Brownian movement of the A1 receptor in the presence of the A2A receptor, and a preponderance of cell surface 2:2 receptor heteromers (dimer of dimers). Using computer modeling, aided by bioluminescence resonance energy transfer assays to monitor receptor homomerization and heteromerization and G-protein coupling, we predict the interacting interfaces and propose a quaternary structure of the GPCR tetramer in complex with two G proteins. The combination of results points to a molecular architecture formed by a rhombus-shaped heterotetramer, which is bound to two different interacting heterotrimeric G proteins (Gi and Gs). These novel results constitute an important advance in understanding the molecular intricacies involved in GPCR function.
doi_str_mv	10.1186/s12915-016-0247-4
format	Article
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Different GPCRs may also interact to form heteromers that are novel signaling units. Despite the exponential growth in the number of solved GPCR crystal structures, the structural properties of heteromers remain unknown. We used single-particle tracking experiments in cells expressing functional adenosine A1-A2A receptors fused to fluorescent proteins to show the loss of Brownian movement of the A1 receptor in the presence of the A2A receptor, and a preponderance of cell surface 2:2 receptor heteromers (dimer of dimers). Using computer modeling, aided by bioluminescence resonance energy transfer assays to monitor receptor homomerization and heteromerization and G-protein coupling, we predict the interacting interfaces and propose a quaternary structure of the GPCR tetramer in complex with two G proteins. 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subjects	Analysis Animals Cell receptors Cells Crystal structure Crystals Fluorescence G proteins HEK293 Cells Heterotrimeric GTP-Binding Proteins - chemistry Heterotrimeric GTP-Binding Proteins - metabolism Humans Influence Membrane proteins Models moleculars Molecular biology Molecular Dynamics Simulation Molecular models Protein Binding Protein Multimerization Protein Structure, Quaternary Proteins Proteïnes Receptors cel·lulars Receptors, Purinergic P1 - chemistry Receptors, Purinergic P1 - metabolism Signal transduction Structure
title	Quaternary structure of a G-protein-coupled receptor heterotetramer in complex with Gi and Gs
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