Sonia Bertrand scite author profile

cDNA and genomic clones encoding alpha 7, a novel neuronal nicotinic acetylcholine receptor (nAChR) alpha subunit, were isolated and sequenced. The mature alpha 7 protein (479 residues) has moderate homology with all other alpha and non-alpha nAChR subunits and probably assumes the same transmembrane topology. alpha 7 transcripts transiently accumulate in the developing optic tectum between E5 and E16. They are present in both the deep and the superficial layers of E12 tectum. In Xenopus oocytes, the alpha 7 protein assembles into a homo-oligomeric channel responding to acetylcholine and nicotine. The alpha 7 channel desensitizes very rapidly, rectifies strongly above -20 mV, and is blocked by alpha-bungarotoxin. A bacterial fusion protein encompassing residues 124-239 of alpha 7 binds labeled alpha-bungarotoxin. We conclude that alpha-bungarotoxin binding proteins in the vertebrate nervous system can function as nAChRs.

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A Novel Positive Allosteric Modulator of the α7 Neuronal Nicotinic Acetylcholine Receptor:In VitroandIn VivoCharacterization

Hurst¹,

Hajós²,

Raggenbass³

et al. 2005

J. Neurosci.

416

473

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Several lines of evidence suggest a link between the ␣7 neuronal nicotinic acetylcholine receptor (nAChR) and brain disorders including schizophrenia, Alzheimer's disease, and traumatic brain injury. The present work describes a novel molecule, 1-(5-chloro-2,4-dimethoxy-phenyl)-3-(5-methyl-isoxazol-3-yl)-urea (PNU-120596), which acts as a powerful positive allosteric modulator of the ␣7 nAChR. Discovered in a high-throughput screen, PNU-120596 increased agonist-evoked calcium flux mediated by an engineered variant of the human ␣7 nAChR. Electrophysiology studies confirmed that PNU-120596 increased peak agonist-evoked currents mediated by wild-type receptors and also demonstrated a pronounced prolongation of the evoked response in the continued presence of agonist. In contrast, PNU-120596 produced no detectable change in currents mediated by ␣4␤2, ␣3␤4, and ␣9␣10 nAChRs. PNU-120596 increased the channel mean open time of ␣7 nAChRs but had no effect on ion selectivity and relatively little, if any, effect on unitary conductance. When applied to acute hippocampal slices, PNU-120596 increased the frequency of ACh-evoked GABAergic postsynaptic currents measured in pyramidal neurons; this effect was suppressed by TTX, suggesting that PNU-120596 modulated the function of ␣7 nAChRs located on the somatodendritic membrane of hippocampal interneurons. Accordingly, PNU-120596 greatly enhanced the ACh-evoked inward currents in these interneurons. Systemic administration of PNU-120596 to rats improved the auditory gating deficit caused by amphetamine, a model proposed to reflect a circuit level disturbance associated with schizophrenia. Together, these results suggest that PNU-120596 represents a new class of molecule that enhances ␣7 nAChR function and thus has the potential to treat psychiatric and neurological disorders.

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Mutations in the channel domain alter desensitization of a neuronal nicotinic receptor

Revah

Bertrand

Galzi

et al. 1991

Nature

491

354

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A variety of ligand-gated ion channels undergo a fast activation process after the rapid application of agonist and also a slower transition towards desensitized or inactivated closed channel states when exposure to agonist is prolonged. Desensitization involves at least two distinct closed states in the acetylcholine receptor, each with an affinity for agonists higher than those of the resting or active conformations. Here we investigate how structural elements could be involved in the desensitization of the acetylcholine-gated ion channel from the chick brain alpha-bungarotoxin sensitive homo-oligomeric alpha 7 receptor, using site-directed mutagenesis and expression in Xenopus oocytes. Mutations of the highly conserved leucine 247 residue from the uncharged MII segment of alpha 7 suppress inhibition by the open-channel blocker QX-222, indicating that this residue, like others from MII, faces the lumen of the channel. But, unexpectedly, the same mutations decrease the rate of desensitization of the response, increase the apparent affinity for acetylcholine and abolish current rectification. Moreover, unlike wild-type alpha 7, which has channels with a single conductance level, the leucine-to-threonine mutant has an additional conducting state active at low acetylcholine concentrations. It is possible that mutation of Leu 247 renders conductive one of the high-affinity desensitized states of the receptor.

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Chimaeric nicotinic–serotonergic receptor combines distinct ligand binding and channel specificities

Eiselé

Bertrand²,

Galzi

et al. 1993

Nature

394

329

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The neuronal nicotinic alpha 7 (nAChR) and 5-hydroxytryptamine (5HT3) receptors are ligand-gated ion channels with a homologous topological organization and have activation and desensitization reactions in common. Yet these homo-oligomeric receptors differ in the pharmacology of their binding sites for agonists and competitive antagonists, and in their sensitivity to Ca2+ ions. The alpha 7 channel is highly permeable to Ca2+ ions and external Ca2+ ions potentiate, in an allosteric manner, the permeability response to acetylcholine, as shown for other neuronal nAChRs. The 5HT3 channel, in contrast, is not permeable to Ca2+ ions, but blocked by them. To assign these properties to delimited domains of the primary structure, we constructed several recombinant chimaeric alpha 7-5HT3 receptors. We report here that one of the constructs expresses a functional receptor that contains the serotonergic channel still blocked by Ca2+ ions, but is activated by nicotinic ligands and potentiated by external Ca2+ ions.

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Mutations in the channel domain of a neuronal nicotinic receptor convert ion selectivity from cationic to anionic

Galzi

Devillers‐Thiéry

Hussy³

et al. 1992

Nature

392

300

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Introduction by site-directed mutagenesis of three amino acids from the MII segment of glycine or gamma-aminobutyric acid (GABAA) receptors into the MII segment of alpha 7 nicotinic receptor was sufficient to convert a cation-selective channel into an anion-selective channel gated by acetylcholine. A critical mutation was the insertion of an uncharged residue at the amino-terminal end of MII, stressing the importance of protein geometrical constraints on ion selectivity.

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Mutations at two distinct sites within the channel domain M2 alter calcium permeability of neuronal alpha 7 nicotinic receptor.

Bertrand¹,

Galzi²,

Devillers‐Thiéry³

et al. 1993

Proc. Natl. Acad. Sci. U.S.A.

346

265

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The relative permeability for sodium, potassium, and calcium of chicken a7 neuronal nicotinic receptor was investigated by mutagenesis of the channel domain M2.Mutations in the "intermediate ring" of negatively charged residues, located at the cytoplasmic end of M2 (site 1), reduce calcium permeability without significantly modifying other functional properties (activation and desensitization) of the receptor; a similar change of ion selectivity is also noticed when mutations at site 1 are done in the context of a receptor mutant that conducts ions in a desensitized state. Moreover, mutations of two adjacent rings of leucines at the synaptic end of M2 (site 2) have multiple effects. They abolish calcium permeability, increase the apparent affinity for acetylcholine by 10-to 100-fold, augment Hill numbers (up to 4.6-5.0) of acetylcholine dose-response relationships, slow rates of ionic response onset, and lower the extent of desensitization. Mutations at these two topographically distinct sites within M2 selectively alter calcium transport without affecting the relative permeabilities for sodium and potassium.Influx of calcium (Ca2+) through peripheral and brain nicotinic acetylcholine receptors (nAChRs) has been described in several preparations including muscle (1, 2) (23,27,28). In another study, the simultaneous introduction of three mutations in the M2 segment of the a7 receptor converted its ionic selectivity from cationic to anionic (14). For one of the mutationsThe publication costs of this article were defrayed in part by page charge payment. This article must therefore be hereby marked "advertisement" in accordance with 18 U.S.C. §1734 solely to indicate this fact.(E237A), indirect evidence suggested significant alterations of Ca2+ permeability (14).In this study, we further investigate the monovalent vs. divalent cation selectivity of the a7 receptor. We show that a mutation at the cytoplasmic end of M2 (E237A) abolishes Ca2+ permeability without significantly affecting other properties of the pharmacological and physiological responses to ACh. We further identify another site of two adjacent amino acids, close to the extracellular end of M2 (Leu-254 and Leu-255), where mutations reduce Ca2+ permeability and affect other physiological properties of the response such as its apparent affinity for ACh and the rate of currents onset and desensitization.MATERIALS AND METHODS Mutagenesis. Mutants were prepared as described (23,27). Their coding sequence was checked.Electrophysiology. Oocytes were prepared, injected, and recorded as described (29). For voltage-clamp measurements, cells were incubated in OR2 medium (solution B, Table 1) and challenged by ACh application. Data from one oocyte are given in the figures and values (mean ± SEM) determined from 5 to 10 oocytes from more than one donor are given in Table 2.Current-voltage (I-V) curves were obtained by subtracting passive membrane currents from currents evoked in the presence of ACh. ACh was applied at a concentration close to its EC50 value ...

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Ivermectin: A Positive Allosteric Effector of the α7 Neuronal Nicotinic Acetylcholine Receptor

Krause¹,

Buisson²,

Bertrand³

et al. 1998

Mol Pharmacol

297

236

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We report that preapplication of ivermectin, in the micromolar range, strongly enhances the subsequent acetylcholine-evoked current of the neuronal chick or human alpha7 nicotinic acetylcholine receptors reconstituted in Xenopus laevis oocytes and K-28 cells. This potentiation does not result from nonspecific Cl- currents. The concomitant increase in apparent affinity and cooperativity of the dose-response curve suggest that ivermectin acts as a positive allosteric effector. This interpretation is supported by the observation of an increase in efficiency of a partial agonist associated with the potentiation and by the differential effect of ivermectin on mutants within the M2 channel domain. Ivermectin effects reveal a novel allosteric site for pharmacological agents on neuronal alpha7 nicotinic acetylcholine receptors.

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An Insertion Mutation of the CHRNA4 Gene in a Family With Autosomal Dominant Nocturnal Frontal Lobe Epilepsy

et al. 1997

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Sonia Bertrand

A neuronal nicotinic acetylcholine receptor subunit (α7) is developmentally regulated and forms a homo-oligomeric channel blocked by α-BTX

A Novel Positive Allosteric Modulator of the α7 Neuronal Nicotinic Acetylcholine Receptor:In VitroandIn VivoCharacterization

Mutations in the channel domain alter desensitization of a neuronal nicotinic receptor

Chimaeric nicotinic–serotonergic receptor combines distinct ligand binding and channel specificities

Mutations in the channel domain of a neuronal nicotinic receptor convert ion selectivity from cationic to anionic

Mutations at two distinct sites within the channel domain M2 alter calcium permeability of neuronal alpha 7 nicotinic receptor.

Ivermectin: A Positive Allosteric Effector of the α7 Neuronal Nicotinic Acetylcholine Receptor

An Insertion Mutation of the CHRNA4 Gene in a Family With Autosomal Dominant Nocturnal Frontal Lobe Epilepsy

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