Novel Calmodulin Mutations Associated With Congenital Arrhythmia Susceptibility

Makita, Naomasa; Yagihara, Nobue; Crotti, Lia; Johnson, Christopher N.; Beckmann, Britt Maria; Roh, Michelle S.; Shigemizu, Daichi; Lichtner, Peter; Ishikawa, Taisuke; Aiba, Takeshi; Homfray, Tessa; Behr, Elijah R.; Klug, Didier; Denjoy, Isabelle; Mastantuono, Elisa; Theisen, Daniel; Tsunoda, Tatsuhiko; Satake, Wataru; Toda, Tatsushi; Nakagawa, Hidewaki; Tsuji, Yukiomi; Tsuchiya, Takeshi; Yamamoto, Hisako; Miyamoto, Yoshihiro; Endo, Naoto; Kimura, Akinori; Ozaki, Kouichi; Motomura, Hideki; Suda, Kenji; Tanaka, Toshihiro; Schwartz, Peter J.; Meitinger, Thomas; Kääb, Stefan; Guicheney, Pascale; Shimizu, Wataru; Bhuiyan, Zahurul A.; Watanabe, Hiroshi; Chazin, Walter J.; George, Alfred L.

doi:10.1161/circgenetics.113.000459

Cited by 173 publications

(189 citation statements)

References 45 publications

(62 reference statements)

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“…39 Apart from CPVT, mutations in CALM1 have also been associated with congenital long-QT syndrome and idiopathic ventricular fibrillation. 40, 41 Mutations in CALM2 have been reported in 2 separate papers 40, 42 and have been associated with congenital long-QT syndrome and with overlapping features between congenital long-QT syndrome and CPVT. 40, 42 Finally, mutations in the genes ANK2, encoding ankyrin-B, and KCNJ2, encoding the potassium inwardly rectifying channel Kir2.1, are generally associated with the congenital long-QT syndrome types 4 and 7, respectively, but may phenocopy CPVT.…”

Section: Diagnosismentioning

confidence: 99%

Catecholaminergic Polymorphic Ventricular Tachycardia

Lieve

Werf

Wilde

2016

Circ J

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Catecholaminergic polymorphic ventricular tachycardia (CPVT) is an inherited cardiac arrhythmia disorder that is characterized by emotion-and exercise-induced polymorphic ventricular arrhythmias and may lead to sudden cardiac death (SCD). CPVT plays an important role in SCD in the young and therefore recognition and adequate treatment of the disease are of vital importance. In the past years tremendous improvements have been made in the diagnostic methods and treatment of the disease. In this review, we summarize the clinical characteristics, genetics, and diagnostic and therapeutic strategies of CPVT and describe the most recent advances and some of the current challenges. (Circ J 2016; 80: 1285 -1291

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Section: Diagnosismentioning

confidence: 99%

Catecholaminergic Polymorphic Ventricular Tachycardia

Lieve

Werf

Wilde

2016

Circ J

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“…Mutations in all 3 calmodulin genes have been implicated previously in LQTS or CPVT. [15][16][17][18][19] The CALM2-N98S mutation was identified in a 2-year-old boy who died while dancing. This CALM2-N98S was seen previously as a sporadic mutation in a 12-year-old Japanese boy with syncope and QT prolongation.…”

Section: Whole-exome Molecular Autopsymentioning

confidence: 99%

“…This CALM2-N98S was seen previously as a sporadic mutation in a 12-year-old Japanese boy with syncope and QT prolongation. 18 The CALM2-F90L mutation was identified in a 5-year-old boy who died while playing. Although CALM2-F90L is novel, a CALM1-F90L mutation has been described previously.…”

Section: Whole-exome Molecular Autopsymentioning

confidence: 99%

Whole-Exome Molecular Autopsy After Exertion-Related Sudden Unexplained Death in the Young

Anderson

Tester

Will

et al. 2016

Circ Cardiovasc Genet

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Background-Targeted postmortem genetic testing of the 4 major channelopathy-susceptibility genes (KCNQ1, KCNH2, SCN5A, and RYR2) have yielded putative pathogenic mutations in ≤30% of autopsy-negative sudden unexplained death in the young (SUDY) cases with highest yields derived from the subset of exertion-related SUDY. Here, we evaluate the role of whole-exome sequencing in exertion-related SUDY cases. Methods and Results-From 1998 to 2010, 32 cases of exertion-related SUDY were referred by Medical Examiners for a cardiac channel molecular autopsy. A mutational analysis of the major long-QT syndrome-susceptibility genes (KCNQ1, KCNH2, and SCN5A) and catecholaminergic polymorphic ventricular tachycardia-susceptibility gene (RYR2) identified a putative pathogenic mutation in 11 cases. Whole-exome sequencing was performed on the remaining 21 targeted genenegative SUDY cases. After whole-exome sequencing, a gene-specific surveillance of all genes (N=100) implicated in sudden death was performed to identify putative pathogenic mutation(s). Three of these 21 decedents had a clinically actionable, pathogenic mutation (CALM2-F90L, CALM2-N98S, and PKP2-N634fs). Of the 18 remaining cases, 7 hosted at least 1 variant of unknown significance with a minor allele frequency <1:20 000. The overall yield of pathogenic mutations was higher among decedents aged 1 to 10 years (10/11, 91%) than those aged 11 to 19 years (4/21, 19%, P=0.0001). Conclusions-Molecular screening in this clinical scenario is appropriate with a pathogenic mutation detection rate of 44% using direct DNA sequencing followed by whole-exome sequencing. Only 5 of the 100 interrogated sudden death genes hosted actionable pathogenic mutations for more than one third of these exertion-related, autopsy-negative SUDY cases.

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“…In humans it binds to more than 300 targets (1)(2)(3). Humans have three genes that encode identical CaM proteins, but mutations in just one of the three copies can cause disease (4)(5)(6)(7)(8), as can altered gene expression (9). Although CaM has been extensively studied, many details about its function are still poorly understood.…”

mentioning

confidence: 99%

Conserved properties of individual Ca ²⁺ -binding sites in calmodulin

Halling

Liebeskind

Hall

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

100

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Calmodulin (CaM) is a Ca 2+ -sensing protein that is highly conserved and ubiquitous in eukaryotes. In humans it is a locus of life-threatening cardiomyopathies. The primary function of CaM is to transduce Ca 2+ concentration into cellular signals by binding to a wide range of target proteins in a Ca 2+ -dependent manner. We do not fully understand how CaM performs its role as a highfidelity signal transducer for more than 300 target proteins, but diversity among its four Ca 2+ -binding sites, called EF-hands, may contribute to CaM's functional versatility. We therefore looked at the conservation of CaM sequences over deep evolutionary time, focusing primarily on the four EF-hand motifs. Expanding on previous work, we found that CaM evolves slowly but that its evolutionary rate is substantially faster in fungi. We also found that the four EF-hands have distinguishing biophysical and structural properties that span eukaryotes. These results suggest that all eukaryotes require CaM to decode Ca 2+ signals using four specialized EFhands, each with specific, conserved traits. In addition, we provide an extensive map of sites associated with target proteins and with human disease and correlate these with evolutionary sequence diversity. Our comprehensive evolutionary analysis provides a basis for understanding the sequence space associated with CaM function and should help guide future work on the relationship between structure, function, and disease.calcium signaling | EF-hand | structure | evolution | protein

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Novel Calmodulin Mutations Associated With Congenital Arrhythmia Susceptibility

Cited by 173 publications

References 45 publications

Catecholaminergic Polymorphic Ventricular Tachycardia

Catecholaminergic Polymorphic Ventricular Tachycardia

Whole-Exome Molecular Autopsy After Exertion-Related Sudden Unexplained Death in the Young

Conserved properties of individual Ca ²⁺ -binding sites in calmodulin

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Novel Calmodulin Mutations Associated With Congenital Arrhythmia Susceptibility

Cited by 173 publications

References 45 publications

Catecholaminergic Polymorphic Ventricular Tachycardia

Catecholaminergic Polymorphic Ventricular Tachycardia

Whole-Exome Molecular Autopsy After Exertion-Related Sudden Unexplained Death in the Young

Conserved properties of individual Ca 2+ -binding sites in calmodulin

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Conserved properties of individual Ca ²⁺ -binding sites in calmodulin