A CACNA1C Variant Associated with Reduced Voltage-Dependent Inactivation, Increased Ca(V)1.2 Channel Window Current, and Arrhythmogenesis

Mutations in CACNA1C that increase current through the Ca(V)1.2 L-type Ca(2+) channel underlie rare forms of long QT syndrome (LQTS), and Timothy syndrome (TS). We identified a variant in CACNA1C in a male child of Filipino descent with arrhythmias and extracardiac features by candidate gene sequenc...

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Autores principales: Hennessey, Jessica A., Boczek, Nicole J., Jiang, Yong-Hui, Miller, Joelle D., Patrick, William, Pfeiffer, Ryan, Sutphin, Brittan S., Tester, David J., Barajas-Martinez, Hector, Ackerman, Michael J., Antzelevitch, Charles, Kanter, Ronald, Pitt, Geoffrey S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4153713/
https://www.ncbi.nlm.nih.gov/pubmed/25184293
http://dx.doi.org/10.1371/journal.pone.0106982
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author Hennessey, Jessica A.
Boczek, Nicole J.
Jiang, Yong-Hui
Miller, Joelle D.
Patrick, William
Pfeiffer, Ryan
Sutphin, Brittan S.
Tester, David J.
Barajas-Martinez, Hector
Ackerman, Michael J.
Antzelevitch, Charles
Kanter, Ronald
Pitt, Geoffrey S.
author_facet Hennessey, Jessica A.
Boczek, Nicole J.
Jiang, Yong-Hui
Miller, Joelle D.
Patrick, William
Pfeiffer, Ryan
Sutphin, Brittan S.
Tester, David J.
Barajas-Martinez, Hector
Ackerman, Michael J.
Antzelevitch, Charles
Kanter, Ronald
Pitt, Geoffrey S.
author_sort Hennessey, Jessica A.
collection PubMed
description Mutations in CACNA1C that increase current through the Ca(V)1.2 L-type Ca(2+) channel underlie rare forms of long QT syndrome (LQTS), and Timothy syndrome (TS). We identified a variant in CACNA1C in a male child of Filipino descent with arrhythmias and extracardiac features by candidate gene sequencing and performed functional expression studies to electrophysiologically characterize the effects of the variant on Ca(V)1.2 channels. As a baby, the subject developed seizures and displayed developmental delays at 30 months of age. At age 5 years, he displayed a QTc of 520 ms and experienced recurrent VT. Physical exam at 17 years of age was notable for microcephaly, short stature, lower extremity weakness and atrophy with hyperreflexia, spastic diplegia, multiple dental caries and episodes of rhabdomyolysis. Candidate gene sequencing identified a G>C transversion at position 5731 of CACNA1C (rs374528680) predicting a glycine>arginine substitution at residue 1911 (p.G1911R) of Ca(V)1.2. The allele frequency of this variant is 0.01 in Malays, but absent in 984 Caucasian alleles and in the 1000 genomes project. In electrophysiological analyses, the variant decreased voltage-dependent inactivation, thus causing a gain of function of Ca(V)1.2. We also observed a negative shift of V(1/2) of activation and positive shift of V(1/2) of channel inactivation, resulting in an increase of the window current. Together, these suggest a gain-of-function effect on Ca(V)1.2 and suggest increased susceptibility for arrhythmias in certain clinical settings. The p.G1911R variant was also identified in a case of sudden unexplained infant death (SUID), for which an increasing number of clinical observations have demonstrated can be associated with arrhythmogenic mutations in cardiac ion channels. In summary, the combined effects of the CACNA1C variant to diminish voltage-dependent inactivation of Ca(V)1.2 and increase window current expand our appreciation of mechanisms by which a gain of function of Ca(V)1.2 can contribute to QT prolongation.
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spelling pubmed-41537132014-09-05 A CACNA1C Variant Associated with Reduced Voltage-Dependent Inactivation, Increased Ca(V)1.2 Channel Window Current, and Arrhythmogenesis Hennessey, Jessica A. Boczek, Nicole J. Jiang, Yong-Hui Miller, Joelle D. Patrick, William Pfeiffer, Ryan Sutphin, Brittan S. Tester, David J. Barajas-Martinez, Hector Ackerman, Michael J. Antzelevitch, Charles Kanter, Ronald Pitt, Geoffrey S. PLoS One Research Article Mutations in CACNA1C that increase current through the Ca(V)1.2 L-type Ca(2+) channel underlie rare forms of long QT syndrome (LQTS), and Timothy syndrome (TS). We identified a variant in CACNA1C in a male child of Filipino descent with arrhythmias and extracardiac features by candidate gene sequencing and performed functional expression studies to electrophysiologically characterize the effects of the variant on Ca(V)1.2 channels. As a baby, the subject developed seizures and displayed developmental delays at 30 months of age. At age 5 years, he displayed a QTc of 520 ms and experienced recurrent VT. Physical exam at 17 years of age was notable for microcephaly, short stature, lower extremity weakness and atrophy with hyperreflexia, spastic diplegia, multiple dental caries and episodes of rhabdomyolysis. Candidate gene sequencing identified a G>C transversion at position 5731 of CACNA1C (rs374528680) predicting a glycine>arginine substitution at residue 1911 (p.G1911R) of Ca(V)1.2. The allele frequency of this variant is 0.01 in Malays, but absent in 984 Caucasian alleles and in the 1000 genomes project. In electrophysiological analyses, the variant decreased voltage-dependent inactivation, thus causing a gain of function of Ca(V)1.2. We also observed a negative shift of V(1/2) of activation and positive shift of V(1/2) of channel inactivation, resulting in an increase of the window current. Together, these suggest a gain-of-function effect on Ca(V)1.2 and suggest increased susceptibility for arrhythmias in certain clinical settings. The p.G1911R variant was also identified in a case of sudden unexplained infant death (SUID), for which an increasing number of clinical observations have demonstrated can be associated with arrhythmogenic mutations in cardiac ion channels. In summary, the combined effects of the CACNA1C variant to diminish voltage-dependent inactivation of Ca(V)1.2 and increase window current expand our appreciation of mechanisms by which a gain of function of Ca(V)1.2 can contribute to QT prolongation. Public Library of Science 2014-09-03 /pmc/articles/PMC4153713/ /pubmed/25184293 http://dx.doi.org/10.1371/journal.pone.0106982 Text en © 2014 Hennessey et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Hennessey, Jessica A.
Boczek, Nicole J.
Jiang, Yong-Hui
Miller, Joelle D.
Patrick, William
Pfeiffer, Ryan
Sutphin, Brittan S.
Tester, David J.
Barajas-Martinez, Hector
Ackerman, Michael J.
Antzelevitch, Charles
Kanter, Ronald
Pitt, Geoffrey S.
A CACNA1C Variant Associated with Reduced Voltage-Dependent Inactivation, Increased Ca(V)1.2 Channel Window Current, and Arrhythmogenesis
title A CACNA1C Variant Associated with Reduced Voltage-Dependent Inactivation, Increased Ca(V)1.2 Channel Window Current, and Arrhythmogenesis
title_full A CACNA1C Variant Associated with Reduced Voltage-Dependent Inactivation, Increased Ca(V)1.2 Channel Window Current, and Arrhythmogenesis
title_fullStr A CACNA1C Variant Associated with Reduced Voltage-Dependent Inactivation, Increased Ca(V)1.2 Channel Window Current, and Arrhythmogenesis
title_full_unstemmed A CACNA1C Variant Associated with Reduced Voltage-Dependent Inactivation, Increased Ca(V)1.2 Channel Window Current, and Arrhythmogenesis
title_short A CACNA1C Variant Associated with Reduced Voltage-Dependent Inactivation, Increased Ca(V)1.2 Channel Window Current, and Arrhythmogenesis
title_sort cacna1c variant associated with reduced voltage-dependent inactivation, increased ca(v)1.2 channel window current, and arrhythmogenesis
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4153713/
https://www.ncbi.nlm.nih.gov/pubmed/25184293
http://dx.doi.org/10.1371/journal.pone.0106982
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