Title
Doxycycline pharmacokinetics in geese
Author
Irene Sartini, Beata Lebkowska-Wieruszewska, Andrzej Lisowski, Amnart Poapolathep, Andrejs Sitovs, Mario Giorgi
Year
2021
Journal
Journal of Veterinary Pharmacology and Therapeutics
Abstract
Cardiovascular diseases (CVDs) like hypertension are a major cause for death worldwide. In the cardiovascular tissue, the endothelin system—consisting of the receptor subtypes A (ETAR) and B (ETBR) and the mixed agonist endothelin 1 (ET-1)—is a major key player in the regulation of vascular tone and blood pressure. Tight control of this system is required to maintain homeostasis; otherwise, the endothelin system can cause severe CVDs like pulmonary artery hypertension. The high sequence homology between both receptor subtypes limits the development of novel and selective ligands. Identification of small differences in receptor–ligand interactions and determination of selectivity constraints are crucial to fine-tune ligand properties and subsequent signaling events. Here, we report on novel ET-1 analogs and their detailed pharmacological characterization. We generated simplified ET-1-derived monocyclic peptides to provide an accessible synthesis route. By detailed in vitro characterization, we demonstrated that both G protein signaling and the subsequent arrestin recruitment of activated ETBR remain intact, whereas activation of the ETAR depends on the intramolecular ring size. Increasing of the intramolecular ring structure reduces activity at the ETAR and shifts the peptide toward ETBR selectivity. All ET-1 analogs displayed efficient ETBR-mediated signaling by G protein activation and arrestin 3 recruitment. Our study provides in-depth characterization of the ET-1/ETAR and ET-1/ETBR interactions, which has the potential for future development of endothelin-based drugs for CVD treatment. By identification of Lys9 for selective labeling, novel analogs for peptide-mediated shuttling by ET-1 are proposed.
Full Article
Instrument
J-715
Keywords
Cardiovascular diseases, CVDs, endothelin system,peptide, protein, drug