Abstract

Type-3 serotonin receptors (5-HT3Rs) are pentameric ligand gated ion channels that mediate fast synaptic signaling in response to binding of the neurotransmitter serotonin. 5-HT3Rs play a major role in regulating gut motility, secretion, and visceral perception. Hyperactivity of 5-HT3Rs underlies pathologies such as chemotherapy-induced nausea and vomiting, irritable bowel syndrome, depression, anxiety, bipolar disorder, and excessive visceral pain, making it an important drug target. Previous research has resulted in the structures of the 5-HT3AR in complex with the agonist serotonin and setrons, 5-HT3R antagonists. Recently, 5-HT3AR partial agonists have been proposed to treat 5-HT3R pathologies with less severe side effects than full antagonists. However, the molecular mechanisms of partial agonism by orthosteric ligands of the 5-HT3R are still poorly understood. Here we present structures of the 5-HT3AR in complex with two novel orthosteric partial agonists generated from cryo-electron microscopy imaging. Structural stability of the ligand binding poses was assessed by molecular dynamic simulations, and ligand function was assessed by two-electrode voltage clamp in wild type and mutant receptors. Using our ligand-bound models of the 5-HT3AR, we propose structure-based mechanisms for the functional differences between orthosteric partial agonists, full agonist, and antagonists.

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