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Literature DB >> 17988224

Trafficking and cellular distribution of voltage-gated sodium channels.

Fiona S Cusdin¹, Jeffrey J Clare, Antony P Jackson.

Abstract

Electrical excitability in cells such as neurons and myocytes depends not only upon the expression of voltage-gated sodium channels but also on their correct targeting within the plasma membrane. Placing sodium channels within a broader cell biological context is beginning to shed new light on a variety of important questions such as the integration of neuronal signaling. Mutations that affect sodium channel trafficking have been shown to underlie several life-threatening conditions including cardiac arrhythmias, revealing an important clinical context to these studies.

Entities: Disease

Mesh：

Substances：
Sodium Channels

Year: 2007 PMID： 17988224 DOI： 10.1111/j.1600-0854.2007.00673.x

Source DB: PubMed Journal: Traffic ISSN： 1398-9219 Impact factor: 6.215

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Cited

37 in total

1. The sodium channel {beta}3-subunit induces multiphasic gating in NaV1.3 and affects fast inactivation via distinct intracellular regions.

Authors: Fiona S Cusdin; Daniel Nietlispach; Joseph Maman; Timothy J Dale; Andrew J Powell; Jeffrey J Clare; Antony P Jackson
Journal: J Biol Chem Date: 2010-07-30 Impact factor: 5.157

2. Transmembrane segments prevent surface expression of sodium channel Nav1.8 and promote calnexin-dependent channel degradation.

Authors: Qian Li; Yuan-Yuan Su; Hao Wang; Lei Li; Qiong Wang; Lan Bao
Journal: J Biol Chem Date: 2010-08-18 Impact factor: 5.157

Review 3. 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 4. Cardiac sodium channel mutations: why so many phenotypes?

Authors: Man Liu; Kai-Chien Yang; Samuel C Dudley
Journal: Nat Rev Cardiol Date: 2014-06-24 Impact factor: 32.419

5. Discovery and hit-to-lead evaluation of piperazine amides as selective, state-dependent Na_V1.7 inhibitors.

Authors: Brian A Sparling; S Yi; J Able; H Bregman; Erin F DiMauro; R S Foti; H Gao; A Guzman-Perez; H Huang; M Jarosh; T Kornecook; J Ligutti; B C Milgram; B D Moyer; B Youngblood; V L Yu; M M Weiss
Journal: Medchemcomm Date: 2016-12-02 Impact factor: 3.597

6. Voltage-gated Na⁺ currents in human dorsal root ganglion neurons.

Authors: Xiulin Zhang; Birgit T Priest; Inna Belfer; Michael S Gold
Journal: Elife Date: 2017-05-16 Impact factor: 8.140

Review 7. Forward trafficking of ion channels: what the clinician needs to know.

Authors: James W Smyth; Robin M Shaw
Journal: Heart Rhythm Date: 2010-05-25 Impact factor: 6.343

8. Fluorescent saxitoxins for live cell imaging of single voltage-gated sodium ion channels beyond the optical diffraction limit.

Authors: Alison E Ondrus; Hsiao-lu D Lee; Shigeki Iwanaga; William H Parsons; Brian M Andresen; W E Moerner; J Du Bois
Journal: Chem Biol Date: 2012-07-27

9. Circadian and social cues regulate ion channel trafficking.

Authors: Michael R Markham; M Lynne McAnelly; Philip K Stoddard; Harold H Zakon
Journal: PLoS Biol Date: 2009-09-29 Impact factor: 8.029

10. From molecules to behavior: organismal-level regulation of ion channel trafficking.

Authors: Eric S Fortune; Maurice J Chacron
Journal: PLoS Biol Date: 2009-09-29 Impact factor: 8.029