The serotonin 7 receptor (5-HTR) regulates various processes in the central nervous system, including mood, learning, and circadian rhythm control, among others. Receptor activation can lead to activation of the Gα protein and a subsequent increase of intracellular cyclic adenosine monophosphate (cAMP). Receptor interaction with inverse agonists results in a decrease of basal cAMP levels and therefore a downstream effect of reduced neuronal excitability and neurotransmission. Recently, pellotine (), a alkaloid, was unexpectedly shown to be an inverse agonist of the 5-HTR. Therefore, we evaluated close analogs of compound , both naturally occurring and synthetic analogs, as inverse agonists of the 5-HTR. Functional evaluation in a GloSensor cAMP assay revealed a preference for an 8-hydroxy-6,7-dimethoxy substitution pattern over 6,7,8-trimethoxy analogs or 8-hydroxy-6,7-methylenedioxy analogs. This was supported by molecular dynamics simulations, where the 8-hydroxy substitution allowed more robust interaction with the 5-HTR, which correlated with inverse agonism efficacy. Additionally, -methylation (as in ) improved the potency of the evaluated analogs. In this series, the most potent inverse agonist was anhalidine () (EC = 219 nM, = -95.4%), which lacks the 1-methyl, compared to pellotine (), and showed a 2-fold higher functional potency. Altogether, these results provide key insights for the further development of potent low molecular weight inverse agonists of the 5-HTR.
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