Abstract
G protein–coupled receptors (GPCRs) convert external stimuli into cellular signals through heterotrimeric guanine nucleotide-binding proteins (G-proteins) and β-arrestins (βarrs). In a βarr-dependent signaling pathway, βarrs link GPCRs to various downstream signaling partners, such as the Raf–mitogen-activated protein kinase extracellular signal–regulated kinase–extracellular signal-regulated kinase cascade. Agonist-stimulated GPCR–βarr complexes have been shown to interact with C-Raf and are thought to initiate the mitogen-activated protein kinase pathway through simple tethering of these signaling partners. However, recent evidence shows that in addition to canonical scaffolding functions, βarrs can allosterically activate downstream targets, such as the nonreceptor tyrosine kinase Src. Here, we demonstrate the direct allosteric activation of C-Raf by GPCR–βarr1 complexes in vitro. Furthermore, we show that βarr1 in complex with a synthetic phosphopeptide mimicking the human V2 vasopressin receptor tail that binds and functionally activates βarrs also allosterically activates C-Raf. We reveal that the interaction between the phosphorylated GPCR C terminus and βarr1 is necessary and sufficient for C-Raf activation. Interestingly, the interaction between βarr1 and C-Raf was considerably reduced in the presence of excess activated H-Ras, a small GTPase known to activate C-Raf, suggesting that H-Ras and βarr1 bind to the same region on C-Raf. Furthermore, we found that βarr1 interacts with the Ras-binding domain of C-Raf. Taken together, these data suggest that in addition to canonical scaffolding functions, GPCR–βarr complexes directly allosterically activate C-Raf by binding to its amino terminus. This work provides novel insights into how βarrs regulate effector molecules to activate downstream signaling pathways.
Highlights
G protein-coupled receptors (GPCRs), called 7- not been determined. βarrs have been demonstrated to transmembrane receptors, are the largest group of act like typical scaffold proteins that bring together the membrane proteins that regulate a multitude of components of MAP kinase (MAPK) cascade to facilitate signal physiological processes [1, 2]
H-Ras, the interaction between GST-C-Raf-CR1 and terminus and βarr1 is sufficient for the activation of βarr1 was significantly reduced (Fig. 1D), consistent C-Raf with competitive binding of both βarr1 and H-Ras to Previous studies revealed that GPCR–βarr complexes the same region of C-Raf
In are necessary for the allosteric activation of C-Raf by the current study, using GST pull-down assays, we βarr1. These findings suggest that the binding of the demonstrated that C-Raf's Ras-binding domain (RBD) domain interacts with phosphorylated GPCR C-terminus to βarr1 plays a βarr1
Summary
The activation of C-Raf is a complex process that involves Ras-binding, regulatory phosphorylation, and protein-lipid interactions [19, 20]. These results show that GST does not interact with activity toward MBP significantly increased in the βarr1 and, βarr1 and C-Raf amino-terminus presence of the M2V2R–βarr1 complex, as shown in interact .
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