Mutagenesis and computational docking studies support the existence of a histamine binding site at the extracellular β3+β3− interface of homooligomeric β3 GABAA receptors

Histamine is an important neurotransmitter that exerts its physiological actions through H1-4 metabotropic receptors in mammals. It also directly activates ionotropic GABAA receptor (GABAAR) β3 homooligomers and potentiates GABA responses in αβ heterooligomers in vitro, but the respective histamine...

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Published in:Neuropharmacology 2016-09, Vol.108, p.252-263
Main Authors: Hoerbelt, Paul, Ramerstorfer, Joachim, Ernst, Margot, Sieghart, Werner, Thomson, Jeffrey L., Hough, Lindsay B., Fleck, Mark W.
Format: Article
Language:English
Subjects:
Animals
Bicuculline
Binding Sites - physiology
Docking
Dose-Response Relationship, Drug
Female
GABAA receptor
HEK293 Cells
Histamine
Histamine - chemistry
Histamine - metabolism
Histamine - pharmacology
Humans
Ligand-gated ion channel
Molecular Docking Simulation - methods
Mutagenesis
Mutagenesis - physiology
Protein Structure, Secondary
Rats
Receptors, GABA-A - chemistry
Receptors, GABA-A - genetics
Receptors, GABA-A - metabolism
Xenopus laevis
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container_issue
container_start_page 252
container_title Neuropharmacology
container_volume 108
creator Hoerbelt, Paul
Ramerstorfer, Joachim
Ernst, Margot
Sieghart, Werner
Thomson, Jeffrey L.
Hough, Lindsay B.
Fleck, Mark W.
description Histamine is an important neurotransmitter that exerts its physiological actions through H1-4 metabotropic receptors in mammals. It also directly activates ionotropic GABAA receptor (GABAAR) β3 homooligomers and potentiates GABA responses in αβ heterooligomers in vitro, but the respective histamine binding sites in GABAARs are unknown. We hypothesized that histamine binds at the extracellular β+β− interface at a position homologous to the GABA binding site of heterooligomeric GABAARs. To test this, we individually mutated several residues at the putative ligand binding minus side of a rat GABAAR β3 wild type subunit and of a β3 subunit that was made insensitive to trace Zn2+ inhibition [β3(H267A); called Zβ3]. Zβ3, Zβ3(Y62L), Zβ3(Q64A), Zβ3(Q64E), α1Zβ3, or α1Zβ3(Y62L) receptors were studied in HEK293T cells using whole cell voltage clamp recording. β3, β3(Y62C), β3(Q64C), β3(N41C), β3(D43C), β3(A45C) or β3(M115C) receptors were examined in Xenopus oocytes using two-electrode voltage clamp. Histamine directly activated Zβ3 and β3 homooligomers and potentiated GABA actions in α1Zβ3 heterooligomers. Receptors containing Zβ3(Y62L), β3(Y62C) and β3(D43C) showed markedly reduced histamine potency, but homo- and heterooligomers with Zβ3(Q64E) exhibited increased potency. The GABAAR αβ(γ) competitive antagonist bicuculline elicited sub-maximal agonist currents through Zβ3 homooligomers, the potency of which was strongly decreased by Zβ3(Y62L). Mutations β3(N41C), β3(A45C) and β3(M115C) disturbed receptor expression or assembly. Computational docking into the crystal structure of homooligomeric β3 receptors resulted in a histamine pose highly consistent with the experimental findings, suggesting that histamine activates β3 receptors via a site homologous to the GABA site in αβγ receptors. [Display omitted] •Histamine activated GABAAR β3 homooligomers and potentiated α1Zβ3 heterooligomers.•β3− side mutations homologous to GABA site α1− residues reduced histamine potency.•β3(Q64E) enhanced histamine activity in Zβ3 homooligomers and α1Zβ3 heterooligomers.•Docking into β3 homooligomers confirmed a histamine site in the β3+β3− interface.•This histamine site is at a position homologous to the GABA site in α1β3 receptors.
doi_str_mv 10.1016/j.neuropharm.2016.04.042
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It also directly activates ionotropic GABAA receptor (GABAAR) β3 homooligomers and potentiates GABA responses in αβ heterooligomers in vitro, but the respective histamine binding sites in GABAARs are unknown. We hypothesized that histamine binds at the extracellular β+β− interface at a position homologous to the GABA binding site of heterooligomeric GABAARs. To test this, we individually mutated several residues at the putative ligand binding minus side of a rat GABAAR β3 wild type subunit and of a β3 subunit that was made insensitive to trace Zn2+ inhibition [β3(H267A); called Zβ3]. Zβ3, Zβ3(Y62L), Zβ3(Q64A), Zβ3(Q64E), α1Zβ3, or α1Zβ3(Y62L) receptors were studied in HEK293T cells using whole cell voltage clamp recording. β3, β3(Y62C), β3(Q64C), β3(N41C), β3(D43C), β3(A45C) or β3(M115C) receptors were examined in Xenopus oocytes using two-electrode voltage clamp. Histamine directly activated Zβ3 and β3 homooligomers and potentiated GABA actions in α1Zβ3 heterooligomers. Receptors containing Zβ3(Y62L), β3(Y62C) and β3(D43C) showed markedly reduced histamine potency, but homo- and heterooligomers with Zβ3(Q64E) exhibited increased potency. The GABAAR αβ(γ) competitive antagonist bicuculline elicited sub-maximal agonist currents through Zβ3 homooligomers, the potency of which was strongly decreased by Zβ3(Y62L). Mutations β3(N41C), β3(A45C) and β3(M115C) disturbed receptor expression or assembly. Computational docking into the crystal structure of homooligomeric β3 receptors resulted in a histamine pose highly consistent with the experimental findings, suggesting that histamine activates β3 receptors via a site homologous to the GABA site in αβγ receptors. [Display omitted] •Histamine activated GABAAR β3 homooligomers and potentiated α1Zβ3 heterooligomers.•β3− side mutations homologous to GABA site α1− residues reduced histamine potency.•β3(Q64E) enhanced histamine activity in Zβ3 homooligomers and α1Zβ3 heterooligomers.•Docking into β3 homooligomers confirmed a histamine site in the β3+β3− interface.•This histamine site is at a position homologous to the GABA site in α1β3 receptors.</description><identifier>ISSN: 0028-3908</identifier><identifier>EISSN: 1873-7064</identifier><identifier>DOI: 10.1016/j.neuropharm.2016.04.042</identifier><identifier>PMID: 27140694</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Animals ; Bicuculline ; Binding Sites - physiology ; Docking ; Dose-Response Relationship, Drug ; Female ; GABAA receptor ; HEK293 Cells ; Histamine ; Histamine - chemistry ; Histamine - metabolism ; Histamine - pharmacology ; Humans ; Ligand-gated ion channel ; Molecular Docking Simulation - methods ; Mutagenesis ; Mutagenesis - physiology ; Protein Structure, Secondary ; Rats ; Receptors, GABA-A - chemistry ; Receptors, GABA-A - genetics ; Receptors, GABA-A - metabolism ; Xenopus laevis</subject><ispartof>Neuropharmacology, 2016-09, Vol.108, p.252-263</ispartof><rights>2016 Elsevier Ltd</rights><rights>Copyright © 2016 Elsevier Ltd. 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Receptors containing Zβ3(Y62L), β3(Y62C) and β3(D43C) showed markedly reduced histamine potency, but homo- and heterooligomers with Zβ3(Q64E) exhibited increased potency. The GABAAR αβ(γ) competitive antagonist bicuculline elicited sub-maximal agonist currents through Zβ3 homooligomers, the potency of which was strongly decreased by Zβ3(Y62L). Mutations β3(N41C), β3(A45C) and β3(M115C) disturbed receptor expression or assembly. Computational docking into the crystal structure of homooligomeric β3 receptors resulted in a histamine pose highly consistent with the experimental findings, suggesting that histamine activates β3 receptors via a site homologous to the GABA site in αβγ receptors. 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It also directly activates ionotropic GABAA receptor (GABAAR) β3 homooligomers and potentiates GABA responses in αβ heterooligomers in vitro, but the respective histamine binding sites in GABAARs are unknown. We hypothesized that histamine binds at the extracellular β+β− interface at a position homologous to the GABA binding site of heterooligomeric GABAARs. To test this, we individually mutated several residues at the putative ligand binding minus side of a rat GABAAR β3 wild type subunit and of a β3 subunit that was made insensitive to trace Zn2+ inhibition [β3(H267A); called Zβ3]. Zβ3, Zβ3(Y62L), Zβ3(Q64A), Zβ3(Q64E), α1Zβ3, or α1Zβ3(Y62L) receptors were studied in HEK293T cells using whole cell voltage clamp recording. β3, β3(Y62C), β3(Q64C), β3(N41C), β3(D43C), β3(A45C) or β3(M115C) receptors were examined in Xenopus oocytes using two-electrode voltage clamp. Histamine directly activated Zβ3 and β3 homooligomers and potentiated GABA actions in α1Zβ3 heterooligomers. Receptors containing Zβ3(Y62L), β3(Y62C) and β3(D43C) showed markedly reduced histamine potency, but homo- and heterooligomers with Zβ3(Q64E) exhibited increased potency. The GABAAR αβ(γ) competitive antagonist bicuculline elicited sub-maximal agonist currents through Zβ3 homooligomers, the potency of which was strongly decreased by Zβ3(Y62L). Mutations β3(N41C), β3(A45C) and β3(M115C) disturbed receptor expression or assembly. Computational docking into the crystal structure of homooligomeric β3 receptors resulted in a histamine pose highly consistent with the experimental findings, suggesting that histamine activates β3 receptors via a site homologous to the GABA site in αβγ receptors. [Display omitted] •Histamine activated GABAAR β3 homooligomers and potentiated α1Zβ3 heterooligomers.•β3− side mutations homologous to GABA site α1− residues reduced histamine potency.•β3(Q64E) enhanced histamine activity in Zβ3 homooligomers and α1Zβ3 heterooligomers.•Docking into β3 homooligomers confirmed a histamine site in the β3+β3− interface.•This histamine site is at a position homologous to the GABA site in α1β3 receptors.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>27140694</pmid><doi>10.1016/j.neuropharm.2016.04.042</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0002-8707-5376</orcidid></addata></record>
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1873-7064
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source ScienceDirect Journals
subjects Animals
Bicuculline
Binding Sites - physiology
Docking
Dose-Response Relationship, Drug
Female
GABAA receptor
HEK293 Cells
Histamine
Histamine - chemistry
Histamine - metabolism
Histamine - pharmacology
Humans
Ligand-gated ion channel
Molecular Docking Simulation - methods
Mutagenesis
Mutagenesis - physiology
Protein Structure, Secondary
Rats
Receptors, GABA-A - chemistry
Receptors, GABA-A - genetics
Receptors, GABA-A - metabolism
Xenopus laevis
title Mutagenesis and computational docking studies support the existence of a histamine binding site at the extracellular β3+β3− interface of homooligomeric β3 GABAA receptors
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