Abstract
Although homo- and heterodimerizations of G protein-coupled receptors (GPCRs) are well documented, GPCR monomers are able to assemble in different ways, thus causing variations in the interactive interface between receptor monomers among different GPCRs. Moreover, the functional consequences of this phenomenon, which remain to be clarified, could be specific for different GPCRs. Synthetic peptides derived from transmembrane (TM) domains can interact with a full-length GPCR, blocking dimer formation and affecting its function. Here we used peptides corresponding to TM helices of bovine rhodopsin (Rho) to investigate the Rho dimer interface and functional consequences of its disruption. Incubation of Rho with TM1, TM2, TM4, and TM5 peptides in rod outer segment (ROS) membranes shifted the resulting detergent-solubilized protein migration through a gel filtration column toward smaller molecular masses with a reduced propensity for dimer formation in a cross-linking reaction. Binding of these TM peptides to Rho was characterized by both mass spectrometry and a label-free assay from which dissociation constants were calculated. A BRET (bioluminescence resonance energy transfer) assay revealed that the physical interaction between Rho molecules expressed in membranes of living cells was blocked by the same four TM peptides identified in our in vitro experiments. Although disruption of the Rho dimer/oligomer had no effect on the rates of G protein activation, binding of Gt to the activated receptor stabilized the dimer. However, TM peptide-induced disruption of dimer/oligomer decreased receptor stability, suggesting that Rho supramolecular organization could be essential for ROS stabilization and receptor trafficking.
Highlights
G protein-coupled receptors (GPCRs) are thought to exist as homo- or heterodimers, but the molecular determinants of their dimerization remain undercharacterized
Functional Consequences of Rho Dimerization—Because TMderived peptides can modulate the activity of some GPCRs [50, 52, 53, 68], we investigated whether disruption of the Rho dimer interface with TM peptides affects Rho activation
Asymmetry with positive or negative cooperativity between monomers within the dimer where binding of ligand to one GPCR monomer increases or decreases the ligand binding affinity of the other monomer has been demonstrated [12, 41]
Summary
G protein-coupled receptors (GPCRs) are thought to exist as homo- or heterodimers, but the molecular determinants of their dimerization remain undercharacterized. Results: TM peptides disrupted the dimerization of rhodopsin (Rho), decreasing its thermal stability and the binding of Gt without affecting its rate of G protein activation. Incubation of Rho with TM1, TM2, TM4, and TM5 peptides in rod outer segment (ROS) membranes shifted the resulting detergent-solubilized protein migration through a gel filtration column toward smaller molecular masses with a reduced propensity for dimer formation in a cross-linking reaction. Binding of these TM peptides to Rho was characterized by both mass spectrometry and a label-free assay from which dissociation constants were calculated. TM peptide-induced disruption of dimer/oligomer decreased receptor stability, suggesting that Rho supramolecular organization could be essential for ROS stabilization and receptor trafficking
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