Receptor and Gβγ isoform-specific interactions with G protein-coupled receptor kinases

The G protein-coupled receptor (GPCR) kinases (GRKs) phosphorylate and desensitize agonist-occupied GPCRs. GRK2-mediated receptor phosphorylation is preceded by the agonist-dependent membrane association of this enzyme. Previous in vitro studies with purified proteins have suggested that this transl...

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Veröffentlicht in:Proceedings of the National Academy of Sciences - PNAS 1997-03, Vol.94 (6), p.2180-2185
Hauptverfasser: Daaka, Yehia, Pitcher, Julie A., Richardson, Mark, Stoffel, Robert H., Robishaw, Janet D., Lefkowitz, Robert J.
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container_issue 6
container_start_page 2180
container_title Proceedings of the National Academy of Sciences - PNAS
container_volume 94
creator Daaka, Yehia
Pitcher, Julie A.
Richardson, Mark
Stoffel, Robert H.
Robishaw, Janet D.
Lefkowitz, Robert J.
description The G protein-coupled receptor (GPCR) kinases (GRKs) phosphorylate and desensitize agonist-occupied GPCRs. GRK2-mediated receptor phosphorylation is preceded by the agonist-dependent membrane association of this enzyme. Previous in vitro studies with purified proteins have suggested that this translocation may be mediated by the recruitment of GRK2 to the plasma membrane by its interaction with the free βγ subunits of heterotrimeric G proteins (Gβγ). Here we demonstrate that this mechanism operates in intact cells and that specificity is imparted by the selective interaction of discrete pools of Gβγ with receptors and GRKs. Treatment of Cos-7 cells transiently overexpressing GRK2 with a β-receptor agonist promotes a 3-fold increase in plasma membrane-associated GRK2. This translocation of GRK2 is inhibited by the carboxyl terminus of GRK2, a known Gβγ sequestrant. Furthermore, in cells overexpressing both GRK2 and Gβ 1 γ 2 , activation of lysophosphatidic acid receptors leads to the rapid and transient formation of a GRK/Gβγ complex. That Gβγ specificity exists at the level of the GPCR and the GRK is indicated by the observation that a GRK2/Gβγ complex is formed after agonist occupancy of the lysophosphatidic acid and β-adrenergic but not thrombin receptors. In contrast to GRK2, GRK3 forms a Gβγ complex after stimulation of all three GPCRs. This Gβγ binding specificity of the GRKs is also reflected at the level of the purified proteins. Thus the GRK2 carboxyl terminus binds Gβ 1 and Gβ 2 but not Gβ 3 , while the GRK3 fusion protein binds all three Gβ isoforms. This study provides a direct demonstration of a role for Gβγ in mediating the agonist-stimulated translocation of GRK2 and GRK3 in an intact cellular system and demonstrates isoform specificity in the interaction of these components.
doi_str_mv 10.1073/pnas.94.6.2180
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GRK2-mediated receptor phosphorylation is preceded by the agonist-dependent membrane association of this enzyme. Previous in vitro studies with purified proteins have suggested that this translocation may be mediated by the recruitment of GRK2 to the plasma membrane by its interaction with the free βγ subunits of heterotrimeric G proteins (Gβγ). Here we demonstrate that this mechanism operates in intact cells and that specificity is imparted by the selective interaction of discrete pools of Gβγ with receptors and GRKs. Treatment of Cos-7 cells transiently overexpressing GRK2 with a β-receptor agonist promotes a 3-fold increase in plasma membrane-associated GRK2. This translocation of GRK2 is inhibited by the carboxyl terminus of GRK2, a known Gβγ sequestrant. Furthermore, in cells overexpressing both GRK2 and Gβ 1 γ 2 , activation of lysophosphatidic acid receptors leads to the rapid and transient formation of a GRK/Gβγ complex. That Gβγ specificity exists at the level of the GPCR and the GRK is indicated by the observation that a GRK2/Gβγ complex is formed after agonist occupancy of the lysophosphatidic acid and β-adrenergic but not thrombin receptors. In contrast to GRK2, GRK3 forms a Gβγ complex after stimulation of all three GPCRs. This Gβγ binding specificity of the GRKs is also reflected at the level of the purified proteins. Thus the GRK2 carboxyl terminus binds Gβ 1 and Gβ 2 but not Gβ 3 , while the GRK3 fusion protein binds all three Gβ isoforms. 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GRK2-mediated receptor phosphorylation is preceded by the agonist-dependent membrane association of this enzyme. Previous in vitro studies with purified proteins have suggested that this translocation may be mediated by the recruitment of GRK2 to the plasma membrane by its interaction with the free βγ subunits of heterotrimeric G proteins (Gβγ). Here we demonstrate that this mechanism operates in intact cells and that specificity is imparted by the selective interaction of discrete pools of Gβγ with receptors and GRKs. Treatment of Cos-7 cells transiently overexpressing GRK2 with a β-receptor agonist promotes a 3-fold increase in plasma membrane-associated GRK2. This translocation of GRK2 is inhibited by the carboxyl terminus of GRK2, a known Gβγ sequestrant. Furthermore, in cells overexpressing both GRK2 and Gβ 1 γ 2 , activation of lysophosphatidic acid receptors leads to the rapid and transient formation of a GRK/Gβγ complex. 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title Receptor and Gβγ isoform-specific interactions with G protein-coupled receptor kinases
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