Developmentally regulated SCN5A splice variant potentiates dysfunction of a novel mutation associated with severe fetal arrhythmia

Murphy, Lisa L. Salazar; Moon-Grady, Anita J.; Cuneo, Bettina F.; Wakai, Ronald T.; Yu, Shasha; Kunic, Jennifer D.; Benson, D. Woodrow; George, Alfred L.

doi:10.1016/j.hrthm.2011.11.006

Cited by 51 publications

(50 citation statements)

References 34 publications

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“…The most unusual tracing was seen in the 21 week fetus with a de novo SCN5A L409P mutation (subject #16; Figure 5B). 11 In this tracing, the T-wave is not well defined and instead, repolarization appears to occur continuously throughout the cardiac cycle. In contrast to adult TWA, the episodes of fetal TWA were typically brief and transient, often lasting 10 s or less.…”

Section: Resultsmentioning

confidence: 92%

In Utero Diagnosis of Long QT Syndrome by Magnetocardiography

Cuneo

Strasburger

et al. 2013

Circulation

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Background The electrophysiology of long QT syndrome (LQTS) in utero is virtually unstudied. Our goal here was to evaluate the efficacy of fetal magnetocardiography (fMCG) for diagnosis and prognosis of fetuses at risk of LQTS. Methods and Results We reviewed the pre/postnatal medical records of 30 fetuses referred for fMCG due to a family history of LQTS (n=17); neonatal/childhood sudden cardiac death (n=3) and/or presentation of prenatal LQTS rhythms (n=12): 2° AVB, ventricular tachycardia, heart rate < 3rd percentile. We evaluated heart rate and reactivity, cardiac time intervals, T-wave characteristics, and initiation/termination of Torsade de Pointes (TdP), and compared these with neonatal ECG findings. After birth, subjects were tested for LQTS mutations. Based on accepted clinical criteria, 21 subjects (70%; 9 KCNQ1, 5 KCNH2, 2 SCN5A, 2 other, 3 untested) had LQTS. Using a threshold of QTc= 490 ms, fMCG accurately identified LQTS fetuses with 89% (24/27) sensitivity and 89% (8/9) specificity in 36 sessions. Four fetuses (2 KCNH2 and 2 SCN5A), all with QTc ≥ 620 ms, had frequent episodes of TdP, which were present 22–79% of the time. While some episodes initiated with a long-short sequence, most initiations showed QRS aberrancy and a notable lack of pause dependency. T-wave alternans was strongly associated with severe LQTS phenotype. Conclusions QTc prolongation (≥490 ms) assessed by fMCG accurately identified LQTS in utero; extreme QTc prolongation (≥620 ms) predicted TdP. FMCG can play a critical role in the diagnosis and management of fetuses at risk of LQTS.

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Section: Resultsmentioning

confidence: 92%

In Utero Diagnosis of Long QT Syndrome by Magnetocardiography

Cuneo

Strasburger

et al. 2013

Circulation

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“…For example, studies of SCN5A-R1623Q, noted in sporadic LQTS cases with severe perinatal arrhythmia 2, 4, 12 , identified a novel LQTS mechanism characterized by early channel re-openings and increased probability of long openings 12 . On the other hand, sporadic occurrence of SCN5A-L409P in combination with H558R caused significant depolarized shifts in voltage-dependence of inactivation and activation, faster recovery from inactivation and a greater level of persistent current potentiated by a developmentally regulated alternative splicing event in SCN5A 3 . In contrast, KCNH2-G628S, a mutation in the pore of the KCNH2 -encoded Kv11.1 potassium channel, was reported to have a dominant negative effect on wild type I Kr 13,14 .…”

Section: Discussionmentioning

confidence: 94%

“…Two subjects had uncharacterized mutations (Table 1). De novo mutations were found in 7 subjects: 6 in Group 1 (4 with SCN5A-R1623Q, 1 each with SCN5A-L409P 3 and KCNH2-G628S 10 ) and 1 in Group 2 with CALM2 9 . The portion of subjects with a familial/inherited mutation varied: Group 1 (14%), Group 2 (75%), Group 3 (92%).…”

Section: Resultsmentioning

confidence: 99%

Arrhythmia Phenotype During Fetal Life Suggests Long-QT Syndrome Genotype

Cuneo

Etheridge

Horigome

et al. 2013

Circ: Arrhythmia and Electrophysiology

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Background Fetal arrhythmias characteristic of long QT syndrome (LQTS) include torsades de pointes (TdP) and/or 2° atrioventricular block (AVB), but sinus bradycardia, defined as fetal heart rate <3% for gestational age, is most common. We hypothesized that prenatal rhythm phenotype might predict LQTS genotype and facilitate improved risk stratification and management. Method and Results Records of subjects exhibiting LQTS fetal arrhythmias were reviewed. Fetal echocardiograms, neonatal ECG, and genetic testing were evaluated. We studied 43 subjects exhibiting fetal LQTS arrhythmias: TdP ± 2° AVB (Group 1, n=7), isolated 2° AVB (Group 2, n=4) and sinus bradycardia (Group 3, n=32). Mutations in known LQTS genes were found in 95% of subjects tested. SCN5A mutations occurred in 71% of Group 1 while 91% of subjects with KCNQ1 mutations were in Group 3. Small numbers of subjects with KCNH2 mutations (n=4) were scattered in all 3 groups. Age at presentation did not differ among groups, and most subjects (n=42) were live born with gestational ages of 37.5±2.8 wks (mean±SD). However, those with TdP were typically delivered earlier. Prenatal treatment in Group 1 terminated (n=2) or improved (n=4) TdP. The neonatal QTc (mean±SE) of Group 1 (664.7±24.9) was longer than neonatal QTc in both Group 2 (491.2±27.6, p=0.004) and Group 3 (483.1±13.7, p<0.001). Despite medical and pacemaker therapy, postnatal cardiac arrest (n=4) or sudden death (n=1) was common among subjects with fetal/neonatal TdP. Conclusions Rhythm phenotypes of fetal LQTS have genotype-suggestive features which, along with QTc duration, may risk stratify perinatal management.

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“…Developmentally-dependent disease phenotypes have been described for cardiac sodium channels, where the LQTS mutation L409P/H558R confers a dramatically more deleterious phenotype in the fetal splice variant compared to the adult variant (Murphy et al, 2012). Interestingly, the ratio of hERG 1b/1a transcript is greater in fetal compared to adult heart, suggesting that 1b-specific mutations may be more deleterious early in development (Crotti et al, 2013).…”

Section: Discussionmentioning

confidence: 99%

Dominant negative consequences of a hERG 1b-specific mutation associated with intrauterine fetal death

Jones

Liu

Dombrowski

et al. 2016

Progress in Biophysics and Molecular Biology

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The human ether-a-go-go related gene (hERG) encodes two subunits, hERG 1a and hERG 1b, that combine in vivo to conduct the rapid delayed rectifier potassium current (IKr). Reduced IKr slows cardiac action potential (AP) repolarization and is an underlying cause of cardiac arrhythmias associated with long QT syndrome (LQTS). Although the physiological importance of hERG 1b has been elucidated, the effects of hERG 1b disease mutations on cardiac IKr and AP behavior have not been described. To explore the disease mechanism of a 1b-specific mutation associated with a case of intrauterine fetal death, we examined the effects of the 1b-R25W mutation on total protein, trafficking and membrane current levels in HEK293 cells at physiological temperatures. By all measures the 1b-R25W mutation conferred diminished expression, and exerted a temperature-sensitive, dominant-negative effect over the WT hERG 1a protein with which it was co-expressed. Membrane currents were reduced by 60% with no apparent effect on voltage dependence or deactivation. The dominant-negative effects of R25W were demonstrated in iPSC-CMs, where 1b-R25W transfection diminished native IKr compared to controls. R25W also slowed AP repolarization, and increased AP triangulation and variability in iPSC-CMs, reflecting cellular manifestations of pro-arrhythmia. These data demonstrate that R25W is a dominant-negative mutation with significant pathophysiological consequences, and provide the first direct link between hERG 1b mutation and cardiomyocyte dysfunction.

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Developmentally regulated SCN5A splice variant potentiates dysfunction of a novel mutation associated with severe fetal arrhythmia

Cited by 51 publications

References 34 publications

In Utero Diagnosis of Long QT Syndrome by Magnetocardiography

In Utero Diagnosis of Long QT Syndrome by Magnetocardiography

Arrhythmia Phenotype During Fetal Life Suggests Long-QT Syndrome Genotype

Dominant negative consequences of a hERG 1b-specific mutation associated with intrauterine fetal death

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