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Glucagon-like peptide-1 receptor dimerization differentially regulates agonist signaling but does not affect small molecule allostery
Authors:Kaleeckal G. Harikumar  Denise Wootten  Delia I. Pinon  Cassandra Koole  Alicja M. Ball  Sebastian G. B. Furness  Bim Graham  Maoqing Dong  Arthur Christopoulos  Laurence J. Miller  Patrick M. Sexton
Affiliation:aDepartment of Molecular Pharmacology and Experimental Therapeutics, Mayo Clinic, Scottsdale, AZ, 85259; and;bDrug Discovery Biology, Monash Institute of Pharmaceutical Sciences and Department of Pharmacology, and;cMedicinal Chemistry, Monash Institute of Pharmaceutical Sciences, Monash University, Parkville, VIC 3052, Australia
Abstract:The glucagon-like peptide-1 receptor (GLP-1R) is a family B G protein-coupled receptor and an important drug target for the treatment of type II diabetes, with activation of pancreatic GLP-1Rs eliciting glucose-dependent insulin secretion. Currently, approved therapeutics acting at this receptor are peptide based, and there is substantial interest in small molecule modulators for the GLP-1R. Using a variety of resonance energy transfer techniques, we demonstrate that the GLP-1R forms homodimers and that transmembrane helix 4 (TM4) provides the primary dimerization interface. We show that disruption of dimerization using a TM4 peptide, a minigene construct encoding TM4, or by mutation of TM4, eliminates G protein-dependent high-affinity binding to GLP-1(7-36)NH2 but has selective effects on receptor signaling. There was <10-fold decrease in potency in cAMP accumulation or ERK1/2 phosphorylation assays but marked loss of intracellular calcium mobilization by peptide agonists. In contrast, there was near-complete abrogation of the cAMP response to an allosteric agonist, compound 2, but preservation of ERK phosphorylation. Collectively, this indicates that GLP-1R dimerization is important for control of signal bias. Furthermore, we reveal that two small molecule ligands are unaltered in their ability to allosterically modulate signaling from peptide ligands, demonstrating that these modulators act in cis within a single receptor protomer, and this has important implications for small molecule drug design.
Keywords:allosteric modulation   biased signaling   G protein-coupled receptors   family B GPCRs
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