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

Revah, Frédéric; Bertrand, Daniel; Galzi, Jean‐Luc; Devillers‐Thiéry, Anne; Mulle, Christophe; Hussy, Nicolas; Bertrand, Sonia; Ballivet, Marc; Changeux, Jean Pierre

doi:10.1038/353846a0

Cited by 493 publications

(405 citation statements)

References 23 publications

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“…Note that even though this new conductance is approximately twofold larger than the normal channel open state, desensitization is still present, consistent with the likelihood of additional closed desensitized states (Revah et al, 1991). Moreover, because of the high affinity of desensitized states for agonists, the mutant ␣7 receptor is now sensitive to both ACh and nicotine in the concentration range that would cause desensitization of wildtype nAChRs (Revah et al, 1991). Interestingly, the desensitized conducting state of the mutant channel can be activated by some competitive antagonists, implying that antagonists, like agonists, can bind to desensitized states with high affinity (Bertrand et al, 1992;Palma et al, 1996;see Sabey et al, 1999 for ␣4␤2 receptors).…”

Section: Molecular Aspects Of Desensitizationmentioning

confidence: 53%

“…In the above case, these data are best explained by a large decrease in the allosteric constant, L, from 10 5 to 10 1 , also implying for the mutant that approximately 9% of receptors should exist in the D state in the absence of ligand (Corringer et al, 1998). Mutations of a key pore-lining residue, leucine 247 , appear to destabilize the closed conformation of a desensitized state, effectively making it conductive to ions, leading to a dramatic slowing of the time course of desensitization of the usually fast-desensitizing ␣7 receptors (Revah et al, 1991). Note that even though this new conductance is approximately twofold larger than the normal channel open state, desensitization is still present, consistent with the likelihood of additional closed desensitized states (Revah et al, 1991).…”

Section: Molecular Aspects Of Desensitizationmentioning

confidence: 99%

“…Because homomeric ␣7-nAChRs undergo desensitization, the ␣ subunit must be sufficient to confer this channel property (Courturier et al, 1990;Revah et al, 1991;Seguela et al, 1993). Indeed, this receptor subtype imparts the fastest onset of desensitization (at saturating doses of agonist) of any nAChR, making it (Table 1).…”

Section: Homomeric ␣-Receptorsmentioning

confidence: 99%

“…Mutations of a key pore-lining residue, leucine 247 , appear to destabilize the closed conformation of a desensitized state, effectively making it conductive to ions, leading to a dramatic slowing of the time course of desensitization of the usually fast-desensitizing ␣7 receptors (Revah et al, 1991). Note that even though this new conductance is approximately twofold larger than the normal channel open state, desensitization is still present, consistent with the likelihood of additional closed desensitized states (Revah et al, 1991). Moreover, because of the high affinity of desensitized states for agonists, the mutant ␣7 receptor is now sensitive to both ACh and nicotine in the concentration range that would cause desensitization of wildtype nAChRs (Revah et al, 1991).…”

Section: Molecular Aspects Of Desensitizationmentioning

confidence: 99%

“…In this respect, the leucine 247 ␣7 subunit mutant exhibits markedly reduced desensitization (Revah et al, 1991;see above), and is lethal when genetically introduced into mice (Orr-Urtreger et al, 1997). Conversely, a polymorphism (serine to phenylalanine) at position 248 in the pore domain of ␣4 subunits results in faster desensitization of ␣4␤2 nAChRs, but causes a form of human cortical epilepsy (Steinlein et al, 1995;Weiland et al, 1996).…”

Section: Implications For Desensitization In Physiology and Diseasementioning

confidence: 99%

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Desensitization of neuronal nicotinic receptors

2002

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ABSTRACT:The loss of functional response upon continuous or repeated exposure to agonist, desensitization, is an intriguing phenomenon if not as yet a welldefined physiological mechanism. However, detailed evaluation of the properties of desensitization, especially for the superfamily of ligand-gated ion channels, reveals how the nervous system could make important use of this process that goes far beyond simply curtailing excessive receptor stimulation and the prevention of excitotoxicity. Here we will review the mechanistic basis of desensitization and discuss how the subunit-dependent properties and regulation of nicotinic acetylcholine receptor (nAChR) desensitization contribute to the functional diversity of these channels. These studies provide the essential framework for understanding how the physiological regulation of desensitization could be a major determinant of synaptic efficacy by controlling, in both the short and long term, the number of functional receptors. This type of mechanism can be extended to explain how the continuous occupation of desensitized receptors during chronic nicotine exposure contributes to drug addiction, and highlights the potential significance of prolonged nAChR desensitization that would also occur as a result of extended acetylcholine lifetime during treatment of Alzheimer's disease with cholinesterase inhibitors. Thus, a clearer picture of the importance of nAChR desensitization in both normal information processing and in various diseased states is beginning to emerge.

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Section: Molecular Aspects Of Desensitizationmentioning

confidence: 53%

Section: Molecular Aspects Of Desensitizationmentioning

confidence: 99%

Section: Homomeric ␣-Receptorsmentioning

confidence: 99%

Section: Molecular Aspects Of Desensitizationmentioning

confidence: 99%

Section: Implications For Desensitization In Physiology and Diseasementioning

confidence: 99%

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Desensitization of neuronal nicotinic receptors

2002

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Comparison of the regional expression of nicotinic acetylcholine receptor ?7 mRNA and [125I]-?-bungarotoxin binding in human postmortem brain

Breese

Adams

Logel³

et al. 1997

J. Comp. Neurol.

242

166

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Neuronal nicotinic acetylcholine receptors are expressed in the human central nervous system. A specific subtype of this receptor family, the alpha7 nicotinic acetylcholine receptor, is thought to be the principal alpha-bungarotoxin (alphaBTX)-binding protein in mammalian brain. Although the expression of this receptor subtype has been characterized in rat, no study has specifically compared the expression of both the alpha7 gene and the localization of BTX binding sites in human brain. Expression of alpha7 mRNA and receptor protein in human postmortem brain tissue was examined by in situ hybridization and [125I]-alpha-bungarotoxin autoradiography, respectively, with particular emphasis on regions associated with sensory processing. Regions with high levels of both alpha7 gene expression and [125I]-alphaBTX binding include the nucleus reticularis of the thalamus, the lateral and medial geniculate bodies, the basilar pontine nucleus, the horizontal limb of the diagonal band of Broca, the nucleus basalis of Meynert, and the inferior olivary nucleus. High-to-moderate levels of alpha7 probe hybridization were also seen in the hippocampus and the cerebral cortex; however, there was a reduced or variable degree of [125I]-alphaBTX binding in these regions compared with the level of probe hybridization. In most brain regions, [125I]-alphaBTX binding was localized to neuronal cell bodies similar in morphology to those that exhibited alpha7 hybridization, suggesting that the high-affinity [125I]-alphaBTX binding sites in the human brain are likely to be principally composed of alpha7 receptor subtypes.

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Agonist self-inhibitory binding site of the nicotinic acetylcholine receptor

Arias

1996

J. Neurosci. Res.

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

Cited by 493 publications

References 23 publications

Desensitization of neuronal nicotinic receptors

Desensitization of neuronal nicotinic receptors

Comparison of the regional expression of nicotinic acetylcholine receptor ?7 mRNA and [125I]-?-bungarotoxin binding in human postmortem brain

Agonist self-inhibitory binding site of the nicotinic acetylcholine receptor

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