Abstract
Most G protein-coupled receptors (GPCRs) recruit β-arrestins and internalize upon agonist stimulation. For the μ-opioid receptor (μ-OR), this process has been linked to development of opioid tolerance. GPCR kinases (GRKs), particularly GRK2 and GRK3, have been shown to be important for μ-OR recruitment of β-arrestin and internalization. However, the contribution of GRK2 and GRK3 to β-arrestin recruitment and receptor internalization, remain to be determined in their complete absence. Using CRISPR/Cas9-mediated genome editing we established HEK293 cells with knockout of GRK2, GRK3 or both to dissect their individual contributions in β-arrestin2 recruitment and μ-OR internalization upon stimulation with four different agonists. We showed that GRK2/3 removal reduced agonist-induced μ-OR internalization and β-arrestin2 recruitment substantially and we found GRK2 to be more important for these processes than GRK3. Furthermore, we observed a sustained and GRK2/3 independent component of β-arrestin2 recruitment to the plasma membrane upon μ-OR activation. Rescue expression experiments restored GRK2/3 functions. Inhibition of GRK2/3 using the small molecule inhibitor CMPD101 showed a high similarity between the genetic and pharmacological approaches, cross-validating the specificity of both. However, off-target effects were observed at high CMPD101 concentrations. These GRK2/3 KO cell lines should prove useful for a wide range of studies on GPCR function.
Highlights
Most G protein-coupled receptors (GPCRs) recruit β-arrestins and internalize upon agonist stimulation
Previous studies have demonstrated that GRK2 and GRK3 affect the phosphorylation state of the 375STANT379 motif in mouse μ-OR22,23,26, and this region has been directly linked to the regulation of μ-opioid receptor (μ-OR) internalization by mutational studies[23,24]
We demonstrate that our ΔGRK2, ΔGRK3 and ΔGRK2/3 cell lines are excellent novel tools to dissect the role of these GPCR kinases (GRKs) subtypes in DAMGO, fentanyl and loperamide-induced μ-OR internalization
Summary
Most G protein-coupled receptors (GPCRs) recruit β-arrestins and internalize upon agonist stimulation. Knockout (KO) models have confirmed the importance of the individual GRKs. For instance, it has been demonstrated that fentanyl and morphine-induced tolerance are decreased in GRK3 KO mice[14], morphine reward and dependence are lost in mice depleted of GRK5, but not GRK3, and morphine-induced locomotor activity is increased in mice lacking GRK6 compared to wild type littermates[15, 16]. It has been demonstrated that fentanyl and morphine-induced tolerance are decreased in GRK3 KO mice[14], morphine reward and dependence are lost in mice depleted of GRK5, but not GRK3, and morphine-induced locomotor activity is increased in mice lacking GRK6 compared to wild type littermates[15, 16] These studies suggest that phosphorylation of μ-OR by specific GRK subtypes differentially impacts the physiological. The relative contribution of GRK2/3/5/6 to μ-OR phosphorylation was dependent on the agonist used
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