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Submolecular probing of the complement C5a receptor–ligand binding reveals a cooperative two-site binding mechanism

Andra C. Dumitru, R. N. V. Krishna Deepak, Heng Liu, Melanie Koehler, Cheng Zhang, Hao Fan, David Alsteens

2020Communications Biology16 citationsDOIOpen Access PDF

Abstract

A current challenge to produce effective therapeutics is to accurately determine the location of the ligand-biding site and to characterize its properties. So far, the mechanisms underlying the functional activation of cell surface receptors by ligands with a complex binding mechanism remain poorly understood due to a lack of suitable nanoscopic methods to study them in their native environment. Here, we elucidated the ligand-binding mechanism of the human G protein-coupled C5a receptor (C5aR). We discovered for the first time a cooperativity between the two orthosteric binding sites. We found that the N-terminus C5aR serves as a kinetic trap, while the transmembrane domain acts as the functional site and both contributes to the overall high-affinity interaction. In particular, Asp282 plays a key role in ligand binding thermodynamics, as revealed by atomic force microscopy and steered molecular dynamics simulation. Our findings provide a new structural basis for the functional and mechanistic understanding of the GPCR family that binds large macromolecular ligands.

Topics & Concepts

CooperativityBiophysicsChemistryLigand (biochemistry)Binding siteC5a receptorCooperative bindingG protein-coupled receptorMechanism (biology)Receptor–ligand kineticsReceptorPlasma protein bindingBiologyComplement systemBiochemistryPhysicsAntibodyImmunologyQuantum mechanicsLipid Membrane Structure and BehaviorComplement system in diseasesReceptor Mechanisms and Signaling
Submolecular probing of the complement C5a receptor–ligand binding reveals a cooperative two-site binding mechanism | Litcius