For decades, ibogaine�the main psychoactive alkaloid found in Tabernanthe iboga�has been investigated as a possible treatment for substance use disorders (SUDs) due to its purported ability to interrupt the addictive properties of multiple drugs of abuse. Of the numerous pharmacological actions of ibogaine and its derivatives, the inhibition of α3β4 nicotinic acetylcholine receptors (nAChRs), represents a probable mechanism of action for their apparent antiaddictive activity. In this Perspective, we examine several classes of compounds that have been discovered and developed to target α3β4 nAChRs. Specifically, by focusing on compounds that have proven efficacious in pre-clinical models of drug abuse and have been evaluated clinically, we highlight the promising potential of the α3β4 nAChRs as viable targets to treat a wide array of SUDs. Additionally, we discuss the challenges faced by the existing classes of α3β4 nAChR ligands that must be overcome to develop them into therapeutic treatments.
The
first synthesis of aristoquinoline (1), a naturally
occurring nicotinic acetylcholine receptor (nAChR) antagonist, was
accomplished using two different approaches. Comparison of the synthetic
material’s spectroscopic data to that of the isolated alkaloid
identified a previously misassigned stereogenic center. An evaluation
of each enantiomer’s activity at the α3β4 nAChR
revealed that (+)-1 is significantly more potent than
(−)-1. This unexpected finding suggests that naturally
occurring 1 possesses the opposite absolute configuration
from indole-containing Aristotelia alkaloids.
With an inwardly directed reactive center and a well-defined binding pocket, Au(I) functionalized resorcin[4]arene cavitands have been shown to catalyze molecular transformations. The reactivity profiles that emerge differ from other Au(I) catalysts. The added constraint of a binding pocket gives rise to the possibility that the substrates might have to fit into the resorcinarene pocket; our hypothesis is that substrates that match the available space have different reaction outcomes than those that do not. Herein we report on the intramolecular cyclization of alkyne-aromatic substrates with variable alkynes and aromatic composition. We see that scaffold size most drastically dictates reactivity, especially when the substrate's features are particularly designed. The results of these experiments add to the veritable goldmine of information about the selectivity in catalysis that cavitands offer.
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