5-HT7 receptor modulators: Amino groups attached to biphenyl scaffold determine functional activity

5-HT7 receptor (5-HT7R) agonists and antagonists have been reported to be used for treatment of neuropathic pain and depression, respectively. In this study, as a novel scaffold for 5-HT7R modulators, we designed and prepared a series of biphenyl-3-yl-methanamine derivatives with various amino group...

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Published in:European journal of medicinal chemistry 2016-11, Vol.123, p.180-190
Main Authors: Kim, Youngjae, Park, Hyeri, Lee, Jeongeun, Tae, Jinsung, Kim, Hak Joong, Min, Sun-Joon, Rhim, Hyewhon, Choo, Hyunah
Format: Article
Language:English
Subjects:
5-HT7 receptor
Agonist
Amines - chemistry
Antagonist
Biphenyl Compounds - chemistry
Drug Design
Humans
Ligands
Molecular docking
Molecular Docking Simulation
Protein Binding
Receptors, Serotonin - metabolism
Serotonin
Serotonin Antagonists - chemistry
Serotonin Receptor Agonists - chemistry
Structure-Activity Relationship
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container_title European journal of medicinal chemistry
container_volume 123
creator Kim, Youngjae
Park, Hyeri
Lee, Jeongeun
Tae, Jinsung
Kim, Hak Joong
Min, Sun-Joon
Rhim, Hyewhon
Choo, Hyunah
description 5-HT7 receptor (5-HT7R) agonists and antagonists have been reported to be used for treatment of neuropathic pain and depression, respectively. In this study, as a novel scaffold for 5-HT7R modulators, we designed and prepared a series of biphenyl-3-yl-methanamine derivatives with various amino groups. Evaluation of functional activities as well as binding affinities of the title compounds identified partial agonists (EC50 = 0.55–3.2 μM) and full antagonists (IC50 = 5.57–23.1 μM) depending on the amino substituents. Molecular docking study suggested that the ligand-based switch in functional activity from agonist to antagonist results from the size of the amino groups and thereby different binding modes to 5-HT7R. In particular, interaction of the ligand with Arg367 of 5-HT7R is shown to differentiate agonists and antagonists. In the pharmacophore model study, two distinct pharmacophore models can tell whether a ligand is an agonist or an antagonist. Taken together, this study provides valuable information for designing novel compounds with selective agonistic or antagonistic properties against 5-HT7R. [Display omitted] •Biphenyl-3-yl-methanamines with various amino groups were designed for 5-HT7R modulators.•Amino groups attached to biphenyl scaffold determine functional activity.•Interaction of the ligand with Arg367 of 5-HT7R is important to differentiate agonists and antagonists.•Two distinct pharmacophore models can tell agonists from antagonists.
doi_str_mv 10.1016/j.ejmech.2016.07.029
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In this study, as a novel scaffold for 5-HT7R modulators, we designed and prepared a series of biphenyl-3-yl-methanamine derivatives with various amino groups. Evaluation of functional activities as well as binding affinities of the title compounds identified partial agonists (EC50 = 0.55–3.2 μM) and full antagonists (IC50 = 5.57–23.1 μM) depending on the amino substituents. Molecular docking study suggested that the ligand-based switch in functional activity from agonist to antagonist results from the size of the amino groups and thereby different binding modes to 5-HT7R. In particular, interaction of the ligand with Arg367 of 5-HT7R is shown to differentiate agonists and antagonists. In the pharmacophore model study, two distinct pharmacophore models can tell whether a ligand is an agonist or an antagonist. Taken together, this study provides valuable information for designing novel compounds with selective agonistic or antagonistic properties against 5-HT7R. 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subjects 5-HT7 receptor
Agonist
Amines - chemistry
Antagonist
Biphenyl Compounds - chemistry
Drug Design
Humans
Ligands
Molecular docking
Molecular Docking Simulation
Protein Binding
Receptors, Serotonin - metabolism
Serotonin
Serotonin Antagonists - chemistry
Serotonin Receptor Agonists - chemistry
Structure-Activity Relationship
title 5-HT7 receptor modulators: Amino groups attached to biphenyl scaffold determine functional activity
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