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Open Access 01-06-2013 | Original Paper

Novel Mutations Mapping to the Fourth Sodium Channel Domain of Nav1.7 Result in Variable Clinical Manifestations of Primary Erythromelalgia

Authors: Roman Cregg, Bisola Laguda, Robert Werdehausen, James J. Cox, John E. Linley, Juan D. Ramirez, Istvan Bodi, Michael Markiewicz, Kevin J. Howell, Ya-Chun Chen, Karen Agnew, Henry Houlden, Michael P. Lunn, David L. H. Bennett, John N. Wood, Maria Kinali

Published in: NeuroMolecular Medicine | Issue 2/2013

Abstract

We identified and clinically investigated two patients with primary erythromelalgia mutations (PEM), which are the first reported to map to the fourth domain of Nav1.7 (DIV). The identified mutations (A1746G and W1538R) were cloned and transfected to cell cultures followed by electrophysiological analysis in whole-cell configuration. The investigated patients presented with PEM, while age of onset was very different (3 vs. 61 years of age). Electrophysiological characterization revealed that the early onset A1746G mutation leads to a marked hyperpolarizing shift in voltage dependence of steady-state activation, larger window currents, faster activation kinetics (time-to-peak current) and recovery from steady-state inactivation compared to wild-type Nav1.7, indicating a pronounced gain-of-function. Furthermore, we found a hyperpolarizing shift in voltage dependence of slow inactivation, which is another feature commonly found in Nav1.7 mutations associated with PEM. In silico neuron simulation revealed reduced firing thresholds and increased repetitive firing, both indicating hyperexcitability. The late-onset W1538R mutation also revealed gain-of-function properties, although to a lesser extent. Our findings demonstrate that mutations encoding for DIV of Nav1.7 can not only be linked to congenital insensitivity to pain or paroxysmal extreme pain disorder but can also be causative of PEM, if voltage dependency of channel activation is affected. This supports the view that the degree of biophysical property changes caused by a mutation may have an impact on age of clinical manifestation of PEM. In summary, these findings extent the genotype–phenotype correlation profile for SCN9A and highlight a new region of Nav1.7 that is implicated in PEM.

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Title: Novel Mutations Mapping to the Fourth Sodium Channel Domain of Nav1.7 Result in Variable Clinical Manifestations of Primary Erythromelalgia
Authors: Roman Cregg
Bisola Laguda
Robert Werdehausen
James J. Cox
John E. Linley
Juan D. Ramirez
Istvan Bodi
Michael Markiewicz
Kevin J. Howell
Ya-Chun Chen
Karen Agnew
Henry Houlden
Michael P. Lunn
David L. H. Bennett
John N. Wood
Maria Kinali
Publication date: 01-06-2013
Publisher: Humana Press Inc
Published in: NeuroMolecular Medicine / Issue 2/2013
Print ISSN: 1535-1084
Electronic ISSN: 1559-1174
DOI: https://doi.org/10.1007/s12017-012-8216-8

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Novel Mutations Mapping to the Fourth Sodium Channel Domain of Nav1.7 Result in Variable Clinical Manifestations of Primary Erythromelalgia

Abstract

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