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Literature DB >> 17587873

Sodium channel auxiliary subunits.

Tsai-Tien Tseng¹, Allison M McMahon, Victoria T Johnson, Erwin Z Mangubat, Robert J Zahm, Mary E Pacold, Eric Jakobsson.

Abstract

Voltage-gated ion channels are well known for their functional roles in excitable tissues. Excitable tissues rely on voltage-gated ion channels and their auxiliary subunits to achieve concerted electrical activity in living cells. Auxiliary subunits are also known to provide functional diversity towards the transport and biogenesis properties of the principal subunits. Recent interests in pharmacological properties of these auxiliary subunits have prompted significant amounts of efforts in understanding their physiological roles. Some auxiliary subunits can potentially serve as drug targets for novel analgesics. Three families of sodium channel auxiliary subunits are described here: beta1 and beta3, beta2 and beta4, and temperature-induced paralytic E (TipE). While sodium channel beta-subunits are encoded in many animal genomes, TipE has only been found exclusively in insects. In this review, we present phylogenetic analyses, discuss potential evolutionary origins and functional data available for each of these subunits. For each family, we also correlate the functional specificity with the history of evolution for the individual auxiliary subunits. (c) 2007 S. Karger AG, Basel.

Entities: Disease Gene

Mesh：

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Year: 2007 PMID： 17587873 DOI： 10.1159/000099646

Source DB: PubMed Journal: J Mol Microbiol Biotechnol ISSN： 1464-1801

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Cited

15 in total

Review 1. Localization and targeting of voltage-dependent ion channels in mammalian central neurons.

Authors: Helene Vacher; Durga P Mohapatra; James S Trimmer
Journal: Physiol Rev Date: 2008-10 Impact factor: 37.312

Review 2. Subtype-selective targeting of voltage-gated sodium channels.

Authors: Steve England; Marcel J de Groot
Journal: Br J Pharmacol Date: 2009-10-20 Impact factor: 8.739

Review 3. Voltage-gated sodium channels: (Na_V )igating the field to determine their contribution to visceral nociception.

Authors: Andelain Erickson; Annemie Deiteren; Andrea M Harrington; Sonia Garcia-Caraballo; Joel Castro; Ashlee Caldwell; Luke Grundy; Stuart M Brierley
Journal: J Physiol Date: 2018-02-06 Impact factor: 5.182

4. Co-expression of β Subunits with the Voltage-Gated Sodium Channel Na_V1.7: the Importance of Subunit Association and Phosphorylation and Their Effects on Channel Pharmacology and Biophysics.

Authors: Maxim V Sokolov; Petra Henrich-Noack; Carina Raynoschek; Bo Franzén; Olof Larsson; Martin Main; Michael Dabrowski
Journal: J Mol Neurosci Date: 2018-05-10 Impact factor: 3.444

Sodium channel auxiliary subunits.

Review 1. Localization and targeting of voltage-dependent ion channels in mammalian central neurons.

Review 2. Subtype-selective targeting of voltage-gated sodium channels.

Review 3. Voltage-gated sodium channels: (Na_V )igating the field to determine their contribution to visceral nociception.

4. Co-expression of β Subunits with the Voltage-Gated Sodium Channel Na_V1.7: the Importance of Subunit Association and Phosphorylation and Their Effects on Channel Pharmacology and Biophysics.

5. Ion channels and schizophrenia: a gene set-based analytic approach to GWAS data for biological hypothesis testing.

6. Functional modulation of voltage-dependent sodium channel expression by wild type and mutated C121W-β1 subunit.

Review 7. Structural and regulatory evolution of cellular electrophysiological systems.

Review 8. Weighing the evidence for a ternary protein complex mediating A-type K+ currents in neurons.

Review 9. Development of Allosteric Modulators of Voltage-Gated Na⁺ Channels: A Novel Approach for an Old Target.

10. A remarkably stable TipE gene cluster: evolution of insect Para sodium channel auxiliary subunits.

Sodium channel auxiliary subunits.

Review 1. Localization and targeting of voltage-dependent ion channels in mammalian central neurons.

Review 2. Subtype-selective targeting of voltage-gated sodium channels.

Review 3. Voltage-gated sodium channels: (NaV )igating the field to determine their contribution to visceral nociception.

4. Co-expression of β Subunits with the Voltage-Gated Sodium Channel NaV1.7: the Importance of Subunit Association and Phosphorylation and Their Effects on Channel Pharmacology and Biophysics.

5. Ion channels and schizophrenia: a gene set-based analytic approach to GWAS data for biological hypothesis testing.

6. Functional modulation of voltage-dependent sodium channel expression by wild type and mutated C121W-β1 subunit.

Review 7. Structural and regulatory evolution of cellular electrophysiological systems.

Review 8. Weighing the evidence for a ternary protein complex mediating A-type K+ currents in neurons.

Review 9. Development of Allosteric Modulators of Voltage-Gated Na+ Channels: A Novel Approach for an Old Target.

10. A remarkably stable TipE gene cluster: evolution of insect Para sodium channel auxiliary subunits.

Review 3. Voltage-gated sodium channels: (Na_V )igating the field to determine their contribution to visceral nociception.

4. Co-expression of β Subunits with the Voltage-Gated Sodium Channel Na_V1.7: the Importance of Subunit Association and Phosphorylation and Their Effects on Channel Pharmacology and Biophysics.

Review 9. Development of Allosteric Modulators of Voltage-Gated Na⁺ Channels: A Novel Approach for an Old Target.