Selectivity, Cooperativity, and Reciprocity in the Interactions between the δ-Opioid Receptor, Its Ligands, and G-proteins
A better understanding of signal transduction mechanisms is of critical importance. Methodologies that allow studies to be done while receptors are incorporated into lipid bilayers are advantageous. One such technique is plasmon-waveguide resonance (PWR) spectroscopy, which can follow changes in con...
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| Veröffentlicht in: | The Journal of biological chemistry 2004-10, Vol.279 (43), p.44673 |
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| container_issue | 43 |
| container_start_page | 44673 |
| container_title | The Journal of biological chemistry |
| container_volume | 279 |
| creator | Isabel D. Alves Kathy A. Ciano Valentina Boguslavski Eva Varga Zdzislaw Salamon Henry I. Yamamura Victor J. Hruby Gordon Tollin |
| description | A better understanding of signal transduction mechanisms is of critical importance. Methodologies that allow studies to be
done while receptors are incorporated into lipid bilayers are advantageous. One such technique is plasmon-waveguide resonance
(PWR) spectroscopy, which can follow changes in conformation accompanying protein-ligand, protein-protein, and protein-lipid
interactions occurring in G-protein-coupled receptors in real time with high sensitivity and without the need for molecular
labeling. Here we investigated several aspects of human δ-opioid receptor (hDOR)-G-protein interactions: 1) the effect of
different types of agonists on the interaction with individual G-protein subtypes; 2) the affinities of the separate G-protein
α and βγ subunits to different ligand-occupied states of the receptor; and 3) the effect of the presence of the G-protein
on the interactions of the ligand with the receptor. To accomplish this we have incorporated the receptor into a solid supported
lipid bilayer in the presence of ligand or G-protein and monitored the PWR spectral changes induced by the reciprocal G-protein
or ligand interactions. We found a high degree of selectivity in the interactions of different agonist-bound states of the
receptor with the different G-protein subtypes. This has important implications for agonist-directed trafficking and selective
drug design. Studies with the separated α and βγ subunits show that cooperativity exists in these interactions. The high affinities
of the separated subunits to the receptor point to the possibility of independent promotion of specific signaling events.
The presence of G-proteins increased the affinity of agonists to the hDOR, and caused faster binding kinetics and different
ligand-induced conformational changes. Because ligand also influences G-protein binding, reciprocity exists between these
two binding processes. |
| doi_str_mv | 10.1074/jbc.M404713200 |
| format | Article |
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done while receptors are incorporated into lipid bilayers are advantageous. One such technique is plasmon-waveguide resonance
(PWR) spectroscopy, which can follow changes in conformation accompanying protein-ligand, protein-protein, and protein-lipid
interactions occurring in G-protein-coupled receptors in real time with high sensitivity and without the need for molecular
labeling. Here we investigated several aspects of human δ-opioid receptor (hDOR)-G-protein interactions: 1) the effect of
different types of agonists on the interaction with individual G-protein subtypes; 2) the affinities of the separate G-protein
α and βγ subunits to different ligand-occupied states of the receptor; and 3) the effect of the presence of the G-protein
on the interactions of the ligand with the receptor. To accomplish this we have incorporated the receptor into a solid supported
lipid bilayer in the presence of ligand or G-protein and monitored the PWR spectral changes induced by the reciprocal G-protein
or ligand interactions. We found a high degree of selectivity in the interactions of different agonist-bound states of the
receptor with the different G-protein subtypes. This has important implications for agonist-directed trafficking and selective
drug design. Studies with the separated α and βγ subunits show that cooperativity exists in these interactions. The high affinities
of the separated subunits to the receptor point to the possibility of independent promotion of specific signaling events.
The presence of G-proteins increased the affinity of agonists to the hDOR, and caused faster binding kinetics and different
ligand-induced conformational changes. Because ligand also influences G-protein binding, reciprocity exists between these
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done while receptors are incorporated into lipid bilayers are advantageous. One such technique is plasmon-waveguide resonance
(PWR) spectroscopy, which can follow changes in conformation accompanying protein-ligand, protein-protein, and protein-lipid
interactions occurring in G-protein-coupled receptors in real time with high sensitivity and without the need for molecular
labeling. Here we investigated several aspects of human δ-opioid receptor (hDOR)-G-protein interactions: 1) the effect of
different types of agonists on the interaction with individual G-protein subtypes; 2) the affinities of the separate G-protein
α and βγ subunits to different ligand-occupied states of the receptor; and 3) the effect of the presence of the G-protein
on the interactions of the ligand with the receptor. To accomplish this we have incorporated the receptor into a solid supported
lipid bilayer in the presence of ligand or G-protein and monitored the PWR spectral changes induced by the reciprocal G-protein
or ligand interactions. We found a high degree of selectivity in the interactions of different agonist-bound states of the
receptor with the different G-protein subtypes. This has important implications for agonist-directed trafficking and selective
drug design. Studies with the separated α and βγ subunits show that cooperativity exists in these interactions. The high affinities
of the separated subunits to the receptor point to the possibility of independent promotion of specific signaling events.
The presence of G-proteins increased the affinity of agonists to the hDOR, and caused faster binding kinetics and different
ligand-induced conformational changes. Because ligand also influences G-protein binding, reciprocity exists between these
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done while receptors are incorporated into lipid bilayers are advantageous. One such technique is plasmon-waveguide resonance
(PWR) spectroscopy, which can follow changes in conformation accompanying protein-ligand, protein-protein, and protein-lipid
interactions occurring in G-protein-coupled receptors in real time with high sensitivity and without the need for molecular
labeling. Here we investigated several aspects of human δ-opioid receptor (hDOR)-G-protein interactions: 1) the effect of
different types of agonists on the interaction with individual G-protein subtypes; 2) the affinities of the separate G-protein
α and βγ subunits to different ligand-occupied states of the receptor; and 3) the effect of the presence of the G-protein
on the interactions of the ligand with the receptor. To accomplish this we have incorporated the receptor into a solid supported
lipid bilayer in the presence of ligand or G-protein and monitored the PWR spectral changes induced by the reciprocal G-protein
or ligand interactions. We found a high degree of selectivity in the interactions of different agonist-bound states of the
receptor with the different G-protein subtypes. This has important implications for agonist-directed trafficking and selective
drug design. Studies with the separated α and βγ subunits show that cooperativity exists in these interactions. The high affinities
of the separated subunits to the receptor point to the possibility of independent promotion of specific signaling events.
The presence of G-proteins increased the affinity of agonists to the hDOR, and caused faster binding kinetics and different
ligand-induced conformational changes. Because ligand also influences G-protein binding, reciprocity exists between these
two binding processes.</abstract><pub>American Society for Biochemistry and Molecular Biology</pub><pmid>15317820</pmid><doi>10.1074/jbc.M404713200</doi></addata></record> |
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| source | Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Alma/SFX Local Collection |
| title | Selectivity, Cooperativity, and Reciprocity in the Interactions between the δ-Opioid Receptor, Its Ligands, and G-proteins |
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