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Abstract
The allosteric mechanism of G-protein-coupled receptors (GPCRs) involves a population shift from inactive to active receptor conformations in response to the binding of ligand agonists. Two possible kinetic mechanisms for this population shift are induced fit and conformational selection. The two mechanisms differ in the temporal sequence of binding events and conformational changes: Ligand bindings occurs prior to the change from the inactive to the active receptor conformation in the induced-fit mechanism, and after the conformational change in the conformational-selection mechanism. In this article, we discuss the current evidence from experiments that probe the binding kinetics of GPCRs to identify the allosteric mechanism. For the peptide-activated neurotensin receptor, the modeling of kinetic data from stopped-flow mixing experiments indicates an induced-fit mechanism [1]. The conformational exchange rates of the induced-fit mechanism obtained from this modeling agree with rates measured by saturation transfer difference NMR experiments of the peptide-receptor complex, which corroborates the mechanism. For the small-molecule-activated β2-andrenergic receptor, an induced-fit mechanism has been inferred from a comparison of ligand-association rates for the inactive and the active receptor conformation [2]. A stabilization of the active receptor conformation by G proteins or nanobodies leads to a decrease of ligand association rates, which indicates that ligand binding occurs in the inactive conformation and, thus, prior to the change from the inactive to the active conformation as in the induced-fit mechanism. A structural explanation for the induced-fit mechanism of the β2-andrenergic receptor is a closed lid over the binding site that blocks ligand entry in the active conformation. Since constriction and closing of the ligand-binding site in the active conformation is rather common for small-molecule-activated and peptide-activated GPCRs, induced fit likely is shared as allosteric mechanism by these GPCRs.
Competing Interest Statement
The authors have declared no competing interest.
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