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Structure–Activity Relationship and Bioactivity of Short Analogues of ELABELA as Agonists of the Apelin Receptor

Kien Trân, Alexandre Murza, Xavier Sainsily, Eugénie Delile, Pierre Couvineau, Jérôme Côté, David Coquerel, Maude Peloquin, Mannix Auger‐Messier, Michel Bouvier, Olivier Lesur, Philippe Sarret, Éric Marsault

2020Journal of Medicinal Chemistry16 citationsDOIOpen Access PDF

Abstract

ELABELA (ELA) is the second endogenous ligand of the apelin receptor (APJ). Although apelin-13 and ELA both target APJ, there is limited information on structure–activity relationship (SAR) of ELA. In the present work, we identified the shortest bioactive C-terminal fragment ELA23-32, which possesses high affinity for APJ (Ki 4.6 nM) and produces cardiorenal effects in vivo similar to those of ELA. SAR studies on conserved residues (Leu25, His26, Val29, Pro30, Phe31, Pro32) show that ELA and apelin-13 may interact differently with APJ. His26 and Val29 emerge as important for ELA binding. Docking and binding experiments suggest that Phe31 of ELA may bind to a tight groove distinct from that of Phe13 of Ape13, while the Phe13 pocket may be occupied by Pro32 of ELA. Further characterization of signaling profiles on the Gαi1, Gα12, and β-arrestin2 pathways reveals the importance of aromatic residue at the Phe31 or Pro32 position for receptor activation.

Topics & Concepts

ApelinChemistryReceptorDocking (animal)StereochemistryIn vivoStructure–activity relationshipBiochemistryIn vitroBiologyGeneticsMedicineNursingApelin-related biomedical researchNuclear Receptors and SignalingCardiovascular, Neuropeptides, and Oxidative Stress Research