RESUMEN
Herein, we report the synthesis and characterization of a novel set of substituted indazole-ethanamines and indazole-tetrahydropyridines as potent serotonin receptor subtype 2 (5-HT2) agonists. Specifically, we examine the 5-HT2 pharmacology of the direct indazole analogs of 5-methoxy-N,N-dimethyltryptamine (5-MeO-DMT) and related serotonergic tryptamines, and highlight the need for rigorous characterization of 5-HT2 subtype selectivity for these analogs, particularly for the 5-HT2B receptor subtype. Within this series, the potent analog VU6067416 (19d) was optimized to have suitable preclinical pharmacokinetic properties for in vivo dosing, although potent 5-HT2B agonist activity precluded further characterization for this series. Additionally, in silico docking studies suggest that the high potency of 19d may be a consequence of a halogen-bonding interaction with Phe2345.38 in the 5-HT2A orthosteric pocket.
RESUMEN
While the muscarinic acetylcholine receptor mAChR subtype 5 (M5) has been studied over decades, recent findings suggest that more in-depth research is required to elucidate a thorough understanding of its physiological function related to neurological and psychiatric disorders. Our efforts to identify potent, selective, and pharmaceutically favorable next-generation M5 antagonist tool compounds have led to the discovery of a novel triazolopyridine-based series. In particular, VU6036864 (45) showed exquisite potency (human M5 IC50 = 20 nM), good subtype selectivity (>500 fold selectivity against human M1-4), desirable brain exposure (Kp = 0.68, Kp,uu = 0.65), and high oral bioavailability (%F > 100%). VU6036864 (45) and its close analogues will support further studies of M5 as advanced antagonist tool compounds and play an important role in the emerging biology of M5.