Literature DB >> 20547678

Cysteine 723 in the C-linker segment confers oxidative inhibition of hERG1 potassium channels.

Katrin Kolbe1, Roland Schönherr, Guido Gessner, Nirakar Sahoo, Toshinori Hoshi, Stefan H Heinemann.   

Abstract

Excess reactive oxygen species (ROS) play a crucial role under pathophysiological conditions, such as ischaemia/reperfusion and diabetes, potentially contributing to cardiac arrhythmia. hERG1 (KCNH2) potassium channels terminate the cardiac action potential and malfunction can lead to long-QT syndrome and fatal arrhythmia. To investigate the molecular mechanisms of hERG1 channel alteration by ROS, hERG1 and mutants thereof were expressed in HEK293 cells and studied with the whole-cell patch-clamp method. Even mild ROS stress induced by hyperglycaemia markedly decreased channel current. Intracellular H2O2 or cysteine-specific modifiers also strongly inhibited channel activity and accelerated deactivation kinetics. Mutagenesis revealed that cysteine 723 (C723), a conserved residue in a structural element linking the C-terminal domain to the channel's gate, is critical for oxidative functional modification. Moreover, kinetics of channel closure strongly influences ROS-induced modification, where rapid channel deactivation diminishes ROS sensitivity. Because of its fast deactivation kinetics, the N-terminally truncated splice variant hERG1b possesses greater resistance to oxidative modification.

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Year:  2010        PMID: 20547678      PMCID: PMC2956941          DOI: 10.1113/jphysiol.2010.192468

Source DB:  PubMed          Journal:  J Physiol        ISSN: 0022-3751            Impact factor:   5.182


  31 in total

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  26 in total

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3.  Interactions between the N-terminal tail and the gating machinery of hERG K⁺ channels both in closed and open/inactive states.

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7.  Hydrogen peroxide differentially affects activity in the pre-Bötzinger complex and hippocampus.

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