Abstract
ObjectivesAdenosine receptor signaling and suppressing potential pathways such as the aryl hydrocarbon receptor (AHR) and takeda G-protein-coupled receptor-5(TGR5) have been identified as potential targets for enhancing metabolic health. Certain adenosine receptor (AR) ligands have been suggested to reduce inflammation and improve thermogenesis in adipose tissue. MethodsThis study employed in-silico biomolecular fractions of adenosine receptors and other potential targets to understand the mechanism of action of Asperuloside. Additionally, the anti-obesity potential of Asperuloside, a dual-acting ligand with A2A adenosine receptor (A2AAR) agonist and A3 adenosine receptor (A3AR) agonist activities, were examined using computational analysis in the obesity model. The impact of Asperuloside on inflammation and thermogenesis was studied through diverse protein structures such as the A2AAR complex with agonist/A2AAR complex with antagonist, the rhodopsin mutant with bound galphact peptide (as A3 adenosine receptor), The Human TGR5 complex with synthetic agonist 23H, and AHR receptors antagonism. ResultsThe study found that Asperuloside has therapeutic affinity for the binding site of adenosine receptors and revealed a novel binding interaction that helps reduce inflammation and improve thermogenesis-mediated obesity. ConclusionAsperuloside may have anti-obesity effects through its dual-acting ligand with A2AAR and A3AR agonist activities. This study provides a major step towards understanding the mechanism of action of Asperuloside and its potential use as an anti-obesity drug. In vivo tests will help ascertain its pharmacokinetic characteristics, metabolite production in animals, and the effects of chronic daily absorption.
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