N-Methyl-d-aspartate (NMDA) receptors containing one or two GluN2B subunits play a crucial role in a variety of neurodegenerative diseases, such as Alzheimer's and Huntington's disease. In order to increase selectivity for GluN2B NMDA receptors, the piperidine ring of eliprodil (2) was conformationally restricted by introduction of an ethano bridge across C-2 and C-6 resulting in a tropane scaffold. Benzylidenetropanes 15 and 16 and benzyltropanes 17 and 18 were prepared by nucleophilic opening of enantiomerically pure phenyloxiranes 13 and 14 with racemic secondary amines (Z/E)-11 and diastereomeric mixtures (r/s)-12. The diastereomers were separated by preparative HPLC to obtain enantiomerically pure test compounds 15-18. The absolute and relative configuration of the products were determined by X-ray crystal structure analysis. Benzylidenetropanes 15 and 16 as well as benzyltropanes 17 and 18 display very high GluN2B affinity in receptor binding studies. Benzylidinetropanes with the phenyl moiety oriented towards C-5 of the tropane system showed higher GluN2B affinity than their analogs with the phenyl moiety oriented towards C-1. In benzyltropanes endo-configured stereoisomers exhibit higher GluN2B affinity than exo-configured diastereomers. Unfortunately, tropanes 15-18 show also high σ1 and σ2 affinity with the same trends for the stereoisomers as for GluN2B affinity. The high-affinity GluN2B ligand (R,r)-17b was able to inhibit the ion flux in two-electrode voltage clamp experiments using GluN1a/GluN2B expressing oocytes.
Keywords: Electrophysiology; Eliprodil; GluN2B affinity; Ifenprodil binding site; NMDA receptor; Neurodegenerative diseases; Pseudochirality; Receptor binding studies; Selectivity; Stereochemistry; Two-electrode voltage clamp; X-ray crystallography; σ receptor affinity.
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