Abstract
Structural characterization of the human Y4 receptor (hY4R) interaction with human pancreatic polypeptide (hPP) is crucial, not only for understanding its biological function but also for testing treatment strategies for obesity that target this interaction. Here, the interaction of receptor mutants with pancreatic polypeptide analogs was studied through double-cycle mutagenesis. To guide mutagenesis and interpret results, a three-dimensional comparative model of the hY4R-hPP complex was constructed based on all available class A G protein-coupled receptor crystal structures and refined using experimental data. Our study reveals that residues of the hPP and the hY4R form a complex network consisting of ionic interactions, hydrophobic interactions, and hydrogen binding. Residues Tyr(2.64), Asp(2.68), Asn(6.55), Asn(7.32), and Phe(7.35) of Y4R are found to be important in receptor activation by hPP. Specifically, Tyr(2.64) interacts with Tyr(27) of hPP through hydrophobic contacts. Asn(7.32) is affected by modifications on position Arg(33) of hPP, suggesting a hydrogen bond between these two residues. Likewise, we find that Phe(7.35) is affected by modifications of hPP at positions 33 and 36, indicating interactions between these three amino acids. Taken together, we demonstrate that the top of transmembrane helix 2 (TM2) and the top of transmembrane helices 6 and 7 (TM6-TM7) form the core of the peptide binding pocket. These findings will contribute to the rational design of ligands that bind the receptor more effectively to produce an enhanced agonistic or antagonistic effect.
Highlights
The Y4 receptor (Y4R) is involved in regulation of food intake and gastrointestinal transport
Many amino acids located on ECL1, TM6, and TM7 are crucial for the interaction [16, 19, 54]
Taking all these data into consideration, we expected the human Y4 receptor (hY4R) binding pocket to be composed of amino acids located in these areas of the receptor
Summary
The Y4R is involved in regulation of food intake and gastrointestinal transport. Results: Mutagenesis studies revealed several residues displaying a significant loss of potency for hPP. Asp6.59 of hY2R and hY5R interacts via Arg of pNPY and pPYY The importance of this conserved residue was later identified in other systems closely related to the NPYR, such as the NPFF receptor 1 and 2 systems [3] or the prolactin-releasing peptide receptor [21]. HPP analogs with modifications in residues 27, 33, or 36 revealed these positions to be interaction partners with the receptor These results clearly demonstrate the importance of the top of transmembrane helix 2 (TM2) and the top of transmembrane helices 6 and 7 (TM6 and -7) for hPP binding and illustrate the complexity of the intermolecular interactions within the hY4R subtype
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