Presynaptic Release-Regulating Alpha2 Autoreceptors: Potential Molecular Target for Ellagic Acid Nutraceutical Properties

Polyphenol ellagic acid (EA) possesses antioxidant, anti-inflammatory, anti-carcinogenic, anti-diabetic and cardio protection activities, making it an interesting multi-targeting profile. EA also controls the central nervous system (CNS), since it was proven to reduce the immobility time of mice in...

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Autores principales: Isabella Romeo, Giulia Vallarino, Federica Turrini, Alessandra Roggeri, Guendalina Olivero, Raffaella Boggia, Stefano Alcaro, Giosuè Costa, Anna Pittaluga
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
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Acceso en línea:https://doaj.org/article/034d6cfbc395424783137de08bb0cc0a
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Sumario:Polyphenol ellagic acid (EA) possesses antioxidant, anti-inflammatory, anti-carcinogenic, anti-diabetic and cardio protection activities, making it an interesting multi-targeting profile. EA also controls the central nervous system (CNS), since it was proven to reduce the immobility time of mice in both the forced swimming and the tail-suspension tests, with an efficiency comparable to that of classic antidepressants. Interestingly, the anti-depressant-like effect was almost nulled by the concomitant administration of selective antagonists of the noradrenergic receptors, suggesting the involvement of these cellular targets in the central effects elicited by EA and its derivatives. By in silico and in vitro studies, we discuss how EA engages with human α<sub>2A</sub>-ARs and α<sub>2C</sub>-AR catalytic pockets, comparing EA behaviour with that of known agonists and antagonists. Structurally, the hydrophobic residues surrounding the α<sub>2A</sub>-AR pocket confer specificity on the intermolecular interactions and hence lead to favourable binding of EA in the α<sub>2A</sub>-AR, with respect to α<sub>2C</sub>-AR. Moreover, EA seems to better accommodate within α<sub>2A</sub>-ARs into the TM5 area, close to S200 and S204, which play a crucial role for activation of aminergic GPCRs such as the α<sub>2</sub>-AR, highlighting its promising role as a partial agonist. Consistently, EA mimics clonidine in inhibiting noradrenaline exocytosis from hippocampal nerve endings in a yohimbine-sensitive fashion that confirms the engagement of naïve α<sub>2</sub>-ARs in the EA-mediated effect.