Recurrent intrauterine fetal loss due to near absence of HERG: Clinical and functional characterization of a homozygous nonsense HERG Q1070X mutation

Recurrent intrauterine fetal loss due to near absence of HERG: Clinical and functional characterization of a homozygous nonsense HERG Q1070X mutation

Background Inherited arrhythmias may underlie intrauterine and neonatal arrhythmias. Resolving the molecular genetic nature of these rare cases provides significant insight into the role of the affected proteins in arrhythmogenesis and (extra-) cardiac development. Objective The purpose of this stud...

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Bibliographic Details
Published in:Heart rhythm Vol. 5; no. 4; pp. 553 - 561
Main Authors: Bhuiyan, Zahurul A., MD, PhD, Momenah, Tarek S., MD, FACC, Gong, Qiuming, MD, PhD, Amin, Ahmad S., MD, Ghamdi, Saleh Al, MD, Carvalho, Julene S., MD, PhD, Homfray, Tessa, MD, MRCP, Mannens, Marcel M.A.M., PhD, Zhou, Zhengfeng, MD, PhD, Wilde, Arthur A.M., MD, PhD
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-04-2008
Subjects:
Abortion, Spontaneous - etiology
Abortion, Spontaneous - genetics
Adult
Cardiovascular
Codon, Nonsense
Consanguinity
Death, Sudden, Cardiac
Electrophysiology
Ether-A-Go-Go Potassium Channels - genetics
Female
Fetal Death - etiology
Glutamine
HERG
Homozygote
Humans
Infant, Newborn
Long QT syndrome
Long QT Syndrome - complications
Long QT Syndrome - genetics
Male
Nonsense-mediated decay
Pedigree
Pilot Projects
Polymorphism, Genetic
Pregnancy
Pregnancy Trimester, Third
Recurrence
Risk Factors
Sudden cardiac death
Long QT syndrome
Electrophysiology
Nonsense-mediated decay
HERG
Sudden cardiac death
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Summary:Background Inherited arrhythmias may underlie intrauterine and neonatal arrhythmias. Resolving the molecular genetic nature of these rare cases provides significant insight into the role of the affected proteins in arrhythmogenesis and (extra-) cardiac development. Objective The purpose of this study was to perform clinical, molecular, and functional studies of a consanguineous Arabian family with repeated early miscarriages and two intrauterine fetal losses in the early part of the third trimester of pregnancy due to persistent arrhythmias. Methods In-depth clinical investigation was performed in two siblings, both of whom developed severe arrhythmia during the second trimester of pregnancy. Homozygosity mapping with microsatellite repeat polymorphic markers encompassing various cardiac ion channel genes linked to electrical instability of the heart was performed. Screening of the candidate gene in the homozygous locus was performed. Biochemical and electrophysiologic analysis was performed to elucidate the function of the mutated gene. Results Screening of the HERG gene in the homozygous locus detected a homozygous nonsense mutation Q1070X in the HERG C-terminus in affected children. Biochemical and functional analysis of the Q1070X mutant showed that although the mutant HERG had the ability to traffic to the plasma membrane and to form functional channels, it was destroyed by the nonsense-mediated decay (NMD) pathway before its translation. NMD leads to near absence of HERG in homozygous Q1070X mutation carriers, causing debilitating arrhythmias (prior to birth) in homozygous carriers but no apparent phenotype in heterozygous carriers. Conclusion Homozygous HERG Q1070X is equivalent to near functional knockout of HERG. Clinical consequences appear early, originating during the early stages of embryonic life. The NMD pathway renders HERG Q1070X functionless before it can form a functional ion channel.
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ISSN:1547-5271
1556-3871
DOI:10.1016/j.hrthm.2008.01.020