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Adamantane-derived scaffolds targeting the sigma-2 receptor; an in vitro and in silico study

Mohammed A. Alamri, Mohammed A. Alamri, Mubarak A. Alamri, Mubarak A. Alamri

2021Saudi Pharmaceutical Journal14 citationsDOIOpen Access PDF

Abstract

Novel adamantane-based compounds were synthesized and assessed as potential sigma-2 receptor ligands. Molecular docking and 50 ns molecular dynamic simulation were carried out to determine the binding modes, mechanism of interaction, and stability of these compounds within the active site of the sigma-2 receptor. In addition, the ADME-T properties have been explored. The cytotoxicity in cancer cell lines that express sigma-2 receptors was also examined. In addition, the in silico and cytotoxicity data for the new compounds were compared to a reference sigma-2 receptor ligand with high receptor-binding affinity and selectivity. The data suggests that the new compounds interact with the sigma-2 receptor in a comparable manner to the reference compound, and that adamantane can be used as a scaffold to synthesize sigma-2 receptor ligands with useful functional groups that can be used to conjugate moieties for tumor-imaging or cytotoxic cargo delivery.

Topics & Concepts

AdamantaneChemistryIn silicoReceptorCytotoxicityDocking (animal)Sigma receptorADMESigma-1 receptorStereochemistryMolecular modelLigand (biochemistry)In vitroConjugateCombinatorial chemistryBiochemistryAgonistOrganic chemistryMedicineGeneMathematicsNursingMathematical analysisPharmacological Receptor Mechanisms and EffectsReceptor Mechanisms and SignalingComputational Drug Discovery Methods
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