Glycine Receptor Knock-In Mice and Hyperekplexia-Like Phenotypes: Comparisons with the Null Mutant

Findlay, Geoffrey S.; Phelan, Rachel; Roberts, Michael; Homanics, Gregg E.; Bergeson, Susan E.; Lopreato, Gregory F.; Mihic, S. John; Blednov, Yuri A.; Harris, R. Adron

doi:10.1523/jneurosci.23-22-08051.2003

Cited by 49 publications

(65 citation statements)

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“…First, currents elicited from oocytes upon application of a maximal concentration of glycine (10 mM) were determined. The magnitudes of these responses provide a measure of the expression level and function of receptors (17). There was a small but significant difference (Ͻ30%) between the maximal currents elicited by homomeric wt and S267C receptors (Fig.…”

Section: Resultsmentioning

confidence: 99%

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Occupancy of a Single Anesthetic Binding Pocket Is Sufficient to Enhance Glycine Receptor Function

Roberts

Phelan

Erlichman

et al. 2006

Journal of Biological Chemistry

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Alcohols and volatile anesthetics enhance the function of inhibitory glycine receptors (GlyRs). This is hypothesized to occur by their binding to a pocket formed between the transmembrane domains of individual ␣1 GlyR subunits. Because GlyRs are pentameric, it follows that each GlyR contains up to five alcohol/anesthetic binding sites, with one in each subunit. We asked how many subunits per pentamer need be bound by drug in order to enhance receptormediated currents. A cysteine mutation was introduced at amino acid serine 267 (S267C) in the transmembrane 2 domain as a tool to block GlyR potentiation by some anesthetic drugs and to provide a means for covalent binding by the small, anesthetic-like thiol reagent propyl methanethiosulfonate. Xenopus laevis oocytes were coinjected with various ratios of wild-type (wt) to S267C ␣1 GlyR cDNAs in order to express heteromeric receptors with a range of wt:mutant subunit stoichiometries. The enhancement of GlyR currents by 200 mM ethanol and 1.5 mM chloroform was positively correlated with the number of wt subunits found in heteromeric receptors. Furthermore, currents from oocytes injected with high ratios of wt to S267C cDNAs (up to 200:1) were significantly and irreversibly enhanced following propyl methanethiosulfonate labeling and washout, demonstrating that drug binding to a single subunit in the receptor pentamer is sufficient to induce enhancement of GlyR currents.Although volatile anesthetics were long believed to have nonspecific, lipid-based mechanisms of action, accumulating evidence led to a shift in research focus to the study of protein sites of anesthetic action and especially to the effects of these drugs on ion channels (1, 2). Among the most studied molecular targets for these drugs are members of the Cysloop family of ligand-gated ion channels, including the glycine receptor (GlyR), 2 the primary inhibitory neurotransmitter receptor in the spinal cord and brain stem (3). Studies in rats have shown that GlyRs mediate the immobilizing effects of the anesthetics halothane, isoflurane, and cyclopropane (4). In transgenic mice expressing an alcohol-insensitive mutant GlyR, these receptors mediate, at least in part, the sedating and anesthetic effects of alcohol (5). These in vivo data agree with functional studies indicating that pharmacologically relevant concentrations of alcohols and volatile anesthetics potentiate GlyRs in both brain slices and heterologous expression systems (6 -9).Significant advances have been made in the understanding of the molecular mechanisms of alcohol and volatile anesthetic enhancement of GlyR function. The GlyR consists of a pentameric assembly of subunits surrounding a central, anion-conducting pore (10). Each of these subunits contains a large, N-terminal extracellular domain responsible for agonist binding, as well as four transmembrane (TM) domains, of which TM2 lines the channel pore and forms the channel gate (11). Mihic et al. (12) identified two amino acids, serine 267 (Ser-267) in TM2 and alanine 288 (Ala-288) in TM...

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Section: Resultsmentioning

confidence: 99%

“…Culture and transfection of human embryonic kidney 293 cells and single-channel recordings from outside-out patches were conducted as described previously (17). Outside-out macropatch recordings were similar to single-channel recordings except that the patch electrodes had lower resistances (3-6 M⍀) to promote the formation of larger patches.…”

Section: Methodsmentioning

confidence: 99%

Occupancy of a Single Anesthetic Binding Pocket Is Sufficient to Enhance Glycine Receptor Function

Roberts

Phelan

Erlichman

et al. 2006

Journal of Biological Chemistry

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“…In a1S267N receptors, we observed an increased EC 50 for glycine and no change in I max , while a1S267Q channels exhibit a normal EC 50 and reduced I max. 17 The phenotypic presentation in both cases, however, is compatible with dominant hyperekplexia. While ethanol potentiation was virtually absent in HEK293 expressed homomeric a1(S267N) receptors, some ethanol sensitivity is retained in Xenopus oocyte expression, as potentiation depends on the expression system.…”

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confidence: 87%

“…While ethanol potentiation was virtually absent in HEK293 expressed homomeric a1(S267N) receptors, some ethanol sensitivity is retained in Xenopus oocyte expression, as potentiation depends on the expression system. 14,17 This study shows that a disease-related receptor allele harbours the potential to modify drug responses in affected patients by reducing GlyR affinity and efficacy. Given the low phenotypic penetrance of the disease allele GLRA1(S267N) in one of our patients, however, this allelic polymorphism may not be clinically apparent.…”

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The novel hyperekplexia allele GLRA1(S267N) affects the ethanol site of the glycine receptor

et al. 2007

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Mutations in the GLRA1 gene, which encodes the a1-subunit of the inhibitory glycine receptor (GlyR), are the underlying causes in the majority of cases of hereditary startle disease (OMIM no. 149400). GlyRs are modulated by alcohols and volatile anesthetics, where a specific amino acid at position 267 has been implicated in receptor modulation. We describe a hyperekplexia family carrying the novel dominant missense allele GLRA1(S267N), that affects agonist responses and ethanol modulation of the mutant receptor. This study implies that a disease-related receptor allele carries the potential to alter drug responses in affected patients.

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“…Some studies have reported that mutations can dramatically alter the functional properties of 1GlyR [9]. The discovery that 1GlyR directly interacts with Gβγ has provided secondary supporting evidence for these findings [10,11].…”

Section: Introductionmentioning

confidence: 98%

The action of ethanol on G protein. <i>In silico</i> and cellular/molecular evidences

Fernández¹,

Moreno²,

Barrientos³

et al. 2013

ABB

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Ethanol (EtOH) enhances glycinergic currents in the central nervous system (CNS). Because evidence for an interaction between the α1 subunit of the glycine receptor (α1GlyR) and the G protein Gβγ subunit exists in vitro and because cAMP levels are known to increase in response to EtOH, we wanted to investigate the interaction between Gβγ and α1GlyR in response to EtOH treatment in HEK293 cells and to explore the possible sites of interaction between EtOH and the Gαs subunit. His pull-down assays in GlyRHis6-transfected HEK293 cells incubated with ethanol or propofol revealed that only EtOH treatment increased the binding of Gβγ heterodimers to α1GlyR. Using molecular modelling (protein structure prediction), was modelled the hGαs protein for the first time and validated this model by site-directed mutagenesis. By molecular docking, we identified some potential regions of interaction between hGαs and EtOH that are located on the SIII and SI regions of the Gαs. Therefore, we conclude that ethanol increases the interaction between α1GlyR and Gβγ in HEK293 cells, an effect that might be attributed to the interaction between EtOH and hGαs, which consequently stimulates hGαs.

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Glycine Receptor Knock-In Mice and Hyperekplexia-Like Phenotypes: Comparisons with the Null Mutant

Cited by 49 publications

References 50 publications

Occupancy of a Single Anesthetic Binding Pocket Is Sufficient to Enhance Glycine Receptor Function

Occupancy of a Single Anesthetic Binding Pocket Is Sufficient to Enhance Glycine Receptor Function

The novel hyperekplexia allele GLRA1(S267N) affects the ethanol site of the glycine receptor

The action of ethanol on G protein. <i>In silico</i> and cellular/molecular evidences

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Glycine Receptor Knock-In Mice and Hyperekplexia-Like Phenotypes: Comparisons with the Null Mutant

Cited by 49 publications

References 50 publications

Occupancy of a Single Anesthetic Binding Pocket Is Sufficient to Enhance Glycine Receptor Function

Occupancy of a Single Anesthetic Binding Pocket Is Sufficient to Enhance Glycine Receptor Function

The novel hyperekplexia allele GLRA1(S267N) affects the ethanol site of the glycine receptor

The action of ethanol on G protein. &lt;i&gt;In silico&lt;/i&gt; and cellular/molecular evidences

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The action of ethanol on G protein. <i>In silico</i> and cellular/molecular evidences