Literature DB >> 24513256

Sodium channels as gateable non-photonic sensors for membrane-delimited reactive species.

Navin K Ojha1, Ehsan Nematian-Ardestani1, Sophie Neugebauer1, Benjamin Borowski1, Ahmed El-Hussein2, Toshinori Hoshi3, Enrico Leipold1, Stefan H Heinemann4.   

Abstract

Reactive oxygen species (ROS) and reactive oxygen intermediates (ROI) play crucial roles in physiological processes. While excessive ROS damages cells, small fluctuations in ROS levels represent physiological signals important for vital functions. Despite the physiological importance of ROS, many fundamental questions remain unanswered, such as which types of ROS occur in cells, how they distribute inside cells, and how long they remain in an active form. The current study presents a ratiometric sensor of intracellular ROS levels based on genetically engineered voltage-gated sodium channels (roNaV). roNaV can be used for detecting oxidative modification that occurs near the plasma membrane with a sensitivity similar to existing fluorescence-based ROS sensors. Moreover, roNaV has several advantages over traditional sensors because it does not need excitation light for sensing, and thus, can be used to detect phototoxic cellular modifications. In addition, the ROS dynamic range of roNaV is easily manipulated in real time by means of the endogenous channel inactivation mechanism. Measurements on ROS liberated from intracellular Lucifer Yellow and genetically encoded KillerRed have revealed an assessment of ROS lifetime in individual mammalian cells. Flashlight-induced ROS concentration decayed with two major time constants of about 10 and 1000 ms.
Copyright © 2014 Elsevier B.V. All rights reserved.

Entities:  

Keywords:  Channel gating; Channel inactivation; Oxidation; ROS sensor; Sodium channel

Mesh:

Substances:

Year:  2014        PMID: 24513256      PMCID: PMC4083234          DOI: 10.1016/j.bbamem.2014.01.031

Source DB:  PubMed          Journal:  Biochim Biophys Acta        ISSN: 0006-3002


  28 in total

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2.  A cluster of hydrophobic amino acid residues required for fast Na(+)-channel inactivation.

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Review 3.  NOX enzymes and the biology of reactive oxygen.

Authors:  J David Lambeth
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4.  Imaging dynamic redox changes in mammalian cells with green fluorescent protein indicators.

Authors:  Colette T Dooley; Timothy M Dore; George T Hanson; W Coyt Jackson; S James Remington; Roger Y Tsien
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5.  A critical role for the S4-S5 intracellular loop in domain IV of the sodium channel alpha-subunit in fast inactivation.

Authors:  J C McPhee; D S Ragsdale; T Scheuer; W A Catterall
Journal:  J Biol Chem       Date:  1998-01-09       Impact factor: 5.157

6.  Primary structure and functional expression of a mammalian skeletal muscle sodium channel.

Authors:  J S Trimmer; S S Cooperman; S A Tomiko; J Y Zhou; S M Crean; M B Boyle; R G Kallen; Z H Sheng; R L Barchi; F J Sigworth
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Review 7.  Reactive oxygen species: from health to disease.

Authors:  K Brieger; S Schiavone; F J Miller; K-H Krause
Journal:  Swiss Med Wkly       Date:  2012-08-17       Impact factor: 2.193

8.  Mitochondria-derived reactive oxygen species mediate blue light-induced death of retinal pigment epithelial cells.

Authors:  Ayala King; Eyal Gottlieb; David G Brooks; Michael P Murphy; Joshua L Dunaief
Journal:  Photochem Photobiol       Date:  2004-05       Impact factor: 3.421

9.  Lucifer Yellow slows voltage-gated Na+ current inactivation in a light-dependent manner in mice.

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Journal:  J Physiol       Date:  2003-07-01       Impact factor: 5.182

Review 10.  Neurodegenerative diseases and oxidative stress.

Authors:  Kevin J Barnham; Colin L Masters; Ashley I Bush
Journal:  Nat Rev Drug Discov       Date:  2004-03       Impact factor: 84.694
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  6 in total

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4.  Heterologous expression of NaV1.9 chimeras in various cell systems.

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5.  Non-photonic sensing of membrane-delimited reactive species with a Na+ channel protein containing selenocysteine.

Authors:  Navin K Ojha; Enrico Leipold; Roland Schönherr; Toshinori Hoshi; Stefan H Heinemann
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Review 6.  Molecular feature of neutrophils in immune microenvironment of muscle atrophy.

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  6 in total

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