Ligand-mimicking Receptor Variant Discloses Binding and Activation Mode of Prolactin-releasing Peptide

Daniel Rathmann,Diana Lindner,Stephanie H Deluca,Kristian W Kaufmann,Jens Meiler,Annette G Beck-Sickinger

doi:10.1074/jbc.m112.349852

Daniel Rathmann, Diana Lindner + Show 4 more

Open Access

https://doi.org/10.1074/jbc.m112.349852

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Abstract

The prolactin-releasing peptide receptor and its bioactive RF-amide peptide (PrRP20) have been investigated to explore the ligand binding mode of peptide G-protein-coupled receptors (GPCRs). By receptor mutagenesis, we identified the conserved aspartate in the upper transmembrane helix 6 (Asp(6.59)) of the receptor as the first position that directly interacts with arginine 19 of the ligand (Arg(19)). Replacement of Asp(6.59) with Arg(19) of PrRP20 led to D6.59R, which turned out to be a constitutively active receptor mutant (CAM). This suggests that the mutated residue at the top of transmembrane helix 6 mimics Arg(19) by interacting with additional binding partners in the receptor. Next, we generated an initial comparative model of this CAM because no ligand docking was required, and we selected the next set of receptor mutants to find the engaged partners of the binding pocket. In an iterative process, we identified two acidic residues and two hydrophobic residues that form the peptide ligand binding pocket. As all residues are localized on top or in the upper part of the transmembrane domains, we clearly can show that the extracellular surface of the receptor is sufficient for full signal transduction for prolactin-releasing peptide, rather than a deep, membrane-embedded binding pocket. This contributes to the knowledge of the binding of peptide ligands to GPCRs and might facilitate the development of GPCR ligands, but it also provides new targeting of CAMs involved in hereditary diseases.

Highlights

Active mutants (CAM) of G-protein-coupled receptors are often related to human diseases
We identified the conserved aspartate in the upper transmembrane helix 6 (Asp6.59) of the receptor as the first position that directly interacts with arginine 19 of the ligand (Arg19)
Arg19 of the Endogenous Ligand PrRP20 Interacts with the Asp6.59 of prolactin-releasing peptide receptor (PrRPR)—Based on the data of the neuropeptide Y (NPY)/Y receptor system [14, 15], we hypothesized Asp6.59 to be the interaction partner of Arg19 in the prolactinreleasing peptide (PrRP)/PrRPR system

Summary

Background

Active mutants (CAM) of G-protein-coupled receptors are often related to human diseases. Considering the relevance of the C-terminal Arg and Phe residues of PrRP for receptor binding, we applied the concept of the double-cycle mutagenesis approach [15, 19, 20] and identified the first direct contact point between PrRP20 and the PrRPR, consisting of the conserved Asp6.59 and the Arg residue of PrRP20. We were able to identify Tyr5.38, Trp5.28, Glu5.26, and to some extent, Phe6.54 to be involved in receptor activation and ligand binding This combinatory approach enabled us to clarify the double binding mode of Arg of the peptide ligand, which has two putative interaction partners within the PrRPR, Glu5.26 and Asp6.59.

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RESULTS

DISCUSSION