Abstract

Homo- and heterodimerization have emerged as prominent features of G-protein-coupled receptors with possible impact on the regulation of their activity. Using a sensitive bioluminescence resonance energy transfer system, we investigated the formation of CXCR4 and CCR2 chemokine receptor dimers. We found that both receptors exist as constitutive homo- and heterodimers and that ligands induce conformational changes within the pre-formed dimers without promoting receptor dimer formation or disassembly. Ligands with different intrinsic efficacies yielded distinct bioluminescence resonance energy transfer modulations, indicating the stabilization of distinct receptor conformations. We also found that peptides derived from the transmembrane domains of CXCR4 inhibited activation of this receptor by blocking the ligand-induced conformational transitions of the dimer. Taken together, our data support a model in which chemokine receptor homo- and heterodimers form spontaneously and respond to ligand binding as units that undergo conformational changes involving both protomers even when only one of the two ligand binding sites is occupied.

Highlights

  • In recent years, the concept of GPCR1 dimerization has raised questions about the molecular details and functional role of such oligomeric assembly

  • Constitutive CXCR4 Dimers Revealed by bioluminescence resonance energy transfer (BRET)—The existence of constitutive CXCR4 dimers was probed by monitoring the occurrence of intermolecular interactions among CXCR4 molecules under basal conditions using a proximity-based BRET assay

  • The basal BRET observed in the absence of any receptor ligand indicates, in agreement with previous reports [3, 4, 24], that CXCR4 exists as a constitutive homodimer

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Summary

Introduction

The concept of GPCR1 dimerization has raised questions about the molecular details and functional role of such oligomeric assembly The selective agonist increased the maximal BRET signal without affecting the BRET50 in a manner similar to that observed for the constitutive CXCR4 homodimer, indicating that the conformation and not the number of dimers was affected by the ligand binding.

Results
Conclusion

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