Literature DB >> 29431731

Physiological genomics identifies genetic modifiers of long QT syndrome type 2 severity.

Sam Chai1,2, Xiaoping Wan2, Angelina Ramirez-Navarro2, Paul J Tesar3, Elizabeth S Kaufman2, Eckhard Ficker2, Alfred L George4, Isabelle Deschênes1,2.   

Abstract

Congenital long QT syndrome (LQTS) is an inherited channelopathy associated with life-threatening arrhythmias. LQTS type 2 (LQT2) is caused by mutations in KCNH2, which encodes the potassium channel hERG. We hypothesized that modifier genes are partly responsible for the variable phenotype severity observed in some LQT2 families. Here, we identified contributors to variable expressivity in an LQT2 family by using induced pluripotent stem cell-derived cardiomyocytes (iPSC-CMs) and whole exome sequencing in a synergistic manner. We found that iPSC-CMs recapitulated the clinical genotype-phenotype discordance in vitro. Importantly, iPSC-CMs derived from the severely affected LQT2 patients displayed prolonged action potentials compared with cells from mildly affected first-degree relatives. The iPSC-CMs derived from all patients with hERG R752W mutation displayed lower IKr amplitude. Interestingly, iPSC-CMs from severely affected mutation-positive individuals exhibited greater L-type Ca2+ current. Whole exome sequencing identified variants of KCNK17 and the GTP-binding protein REM2, providing biologically plausible explanations for this variable expressivity. Genome editing to correct a REM2 variant reversed the enhanced L-type Ca2+ current and prolonged action potential observed in iPSC-CMs from severely affected individuals. Thus, our findings showcase the power of combining complementary physiological and genomic analyses to identify genetic modifiers and potential therapeutic targets of a monogenic disorder. Furthermore, we propose that this strategy can be deployed to unravel myriad confounding pathologies displaying variable expressivity.

Entities:  

Keywords:  Arrhythmias; Cardiology; Genetics; Ion channels; iPS cells

Mesh:

Substances:

Year:  2018        PMID: 29431731      PMCID: PMC5824853          DOI: 10.1172/JCI94996

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


  53 in total

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5.  Contribution of two-pore K+ channels to cardiac ventricular action potential revealed using human iPSC-derived cardiomyocytes.

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Journal:  EMBO Mol Med       Date:  2017-04       Impact factor: 12.137
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Review 6.  How Functional Genomics Can Keep Pace With VUS Identification.

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Review 7.  The updated view on induced pluripotent stem cells for cardiovascular precision medicine.

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Journal:  Eur Heart J       Date:  2018-11-21       Impact factor: 35.855

Review 9.  Cardiac Progenitor Cells.

Authors:  Shaimaa Shouman; Amr Zaher; Alaa Abdelhameed; Sara Elshaboury; Samar Sakr; Bahaa Eldin Fouda; Haya Mohamed; Nagwa El-Badri
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10.  hiPSC-Derived Cardiomyocyte Model of LQT2 Syndrome Derived from Asymptomatic and Symptomatic Mutation Carriers Reproduces Clinical Differences in Aggregates but Not in Single Cells.

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