Literature DB >> 30193957

Differential Wnt-mediated programming and arrhythmogenesis in right versus left ventricles.

Gang Li1, Aditi Khandekar2, Tiankai Yin3, Stephanie C Hicks2, Qiusha Guo2, Kentaro Takahashi2, Catherine E Lipovsky3, Brittany D Brumback1, Praveen K Rao2, Carla J Weinheimer2, Stacey L Rentschler4.   

Abstract

Several inherited arrhythmias, including Brugada syndrome and arrhythmogenic cardiomyopathy, primarily affect the right ventricle and can lead to sudden cardiac death. Among many differences, right and left ventricular cardiomyocytes derive from distinct progenitors, prompting us to investigate how embryonic programming may contribute to chamber-specific conduction and arrhythmia susceptibility. Here, we show that developmental perturbation of Wnt signaling leads to chamber-specific transcriptional regulation of genes important in cardiac conduction that persists into adulthood. Transcriptional profiling of right versus left ventricles in mice deficient in Wnt transcriptional activity reveals global chamber differences, including genes regulating cardiac electrophysiology such as Gja1 and Scn5a. In addition, the transcriptional repressor Hey2, a gene associated with Brugada syndrome, is a direct target of Wnt signaling in the right ventricle only. These transcriptional changes lead to perturbed right ventricular cardiac conduction and cellular excitability. Ex vivo and in vivo stimulation of the right ventricle is sufficient to induce ventricular tachycardia in Wnt transcriptionally inactive hearts, while left ventricular stimulation has no effect. These data show that embryonic perturbation of Wnt signaling in cardiomyocytes leads to right ventricular arrhythmia susceptibility in the adult heart through chamber-specific regulation of genes regulating cellular electrophysiology.
Copyright © 2018 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Cardiac development; Cardiac electrophysiology; Connexin43; Transcriptional regulation; Wnt signaling, Ventricular tachycardia

Mesh:

Substances:

Year:  2018        PMID: 30193957      PMCID: PMC6200419          DOI: 10.1016/j.yjmcc.2018.09.002

Source DB:  PubMed          Journal:  J Mol Cell Cardiol        ISSN: 0022-2828            Impact factor:   5.000


  60 in total

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3.  Notch signaling regulates murine atrioventricular conduction and the formation of accessory pathways.

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Journal:  J Clin Invest       Date:  2011-01-25       Impact factor: 14.808

Review 4.  The emerging genetic landscape underlying cardiac conduction system function.

Authors:  David E Arnolds; Alison Chu; Elizabeth M McNally; Marcelo A Nobrega; Ivan P Moskowitz
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5.  Canonical wnt signaling regulates atrioventricular junction programming and electrophysiological properties.

Authors:  Benjamin S Gillers; Aditi Chiplunkar; Haytham Aly; Tomas Valenta; Konrad Basler; Vincent M Christoffels; Igor R Efimov; Bastiaan J Boukens; Stacey Rentschler
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Authors:  Patrick T Ellinor; Kathryn L Lunetta; Christine M Albert; Nicole L Glazer; Marylyn D Ritchie; Albert V Smith; Dan E Arking; Martina Müller-Nurasyid; Bouwe P Krijthe; Steven A Lubitz; Joshua C Bis; Mina K Chung; Marcus Dörr; Kouichi Ozaki; Jason D Roberts; J Gustav Smith; Arne Pfeufer; Moritz F Sinner; Kurt Lohman; Jingzhong Ding; Nicholas L Smith; Jonathan D Smith; Michiel Rienstra; Kenneth M Rice; David R Van Wagoner; Jared W Magnani; Reza Wakili; Sebastian Clauss; Jerome I Rotter; Gerhard Steinbeck; Lenore J Launer; Robert W Davies; Matthew Borkovich; Tamara B Harris; Honghuang Lin; Uwe Völker; Henry Völzke; David J Milan; Albert Hofman; Eric Boerwinkle; Lin Y Chen; Elsayed Z Soliman; Benjamin F Voight; Guo Li; Aravinda Chakravarti; Michiaki Kubo; Usha B Tedrow; Lynda M Rose; Paul M Ridker; David Conen; Tatsuhiko Tsunoda; Tetsushi Furukawa; Nona Sotoodehnia; Siyan Xu; Naoyuki Kamatani; Daniel Levy; Yusuke Nakamura; Babar Parvez; Saagar Mahida; Karen L Furie; Jonathan Rosand; Raafia Muhammad; Bruce M Psaty; Thomas Meitinger; Siegfried Perz; H-Erich Wichmann; Jacqueline C M Witteman; W H Linda Kao; Sekar Kathiresan; Dan M Roden; Andre G Uitterlinden; Fernando Rivadeneira; Barbara McKnight; Marketa Sjögren; Anne B Newman; Yongmei Liu; Michael H Gollob; Olle Melander; Toshihiro Tanaka; Bruno H Ch Stricker; Stephan B Felix; Alvaro Alonso; Dawood Darbar; John Barnard; Daniel I Chasman; Susan R Heckbert; Emelia J Benjamin; Vilmundur Gudnason; Stefan Kääb
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7.  Arrhythmogenic Cardiomyopathy - New Insights into Disease Mechanisms and Drug Discovery.

Authors:  Angeliki Asimaki; André G Kléber; Calum A MacRae; Jeffrey E Saffitz
Journal:  Prog Pediatr Cardiol       Date:  2014-12-01

8.  Notch-Mediated Epigenetic Regulation of Voltage-Gated Potassium Currents.

Authors:  Aditi Khandekar; Steven Springer; Wei Wang; Stephanie Hicks; Carla Weinheimer; Ramon Diaz-Trelles; Jeanne M Nerbonne; Stacey Rentschler
Journal:  Circ Res       Date:  2016-10-03       Impact factor: 17.367

9.  Genetic fate mapping identifies second heart field progenitor cells as a source of adipocytes in arrhythmogenic right ventricular cardiomyopathy.

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10.  Dynamic conduction and repolarisation changes in early arrhythmogenic right ventricular cardiomyopathy versus benign outflow tract ectopy demonstrated by high density mapping & paced surface ECG analysis.

Authors:  Malcolm C Finlay; Akbar K Ahmed; Alan Sugrue; Justine Bhar-Amato; Giovanni Quarta; Antonis Pantazis; Edward J Ciaccio; Petros Syrris; Srijita Sen-Chowdhry; Ron Ben-Simon; Anthony W Chow; Martin D Lowe; Oliver R Segal; William J McKenna; Pier D Lambiase
Journal:  PLoS One       Date:  2014-07-11       Impact factor: 3.240
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Journal:  J Biol Chem       Date:  2020-10-16       Impact factor: 5.157

2.  A novel dual reporter embryonic stem cell line for toxicological assessment of teratogen-induced perturbation of anterior-posterior patterning of the heart.

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3.  Disruption of Ca2+i Homeostasis and Connexin 43 Hemichannel Function in the Right Ventricle Precedes Overt Arrhythmogenic Cardiomyopathy in Plakophilin-2-Deficient Mice.

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Journal:  Circulation       Date:  2019-07-18       Impact factor: 29.690

4.  Yap Promotes Noncanonical Wnt Signals From Cardiomyocytes for Heart Regeneration.

Authors:  Shijie Liu; Li Tang; Xiaolei Zhao; Bao Nguyen; Todd R Heallen; Min Li; Jianxin Wang; Jun Wang; James F Martin
Journal:  Circ Res       Date:  2021-08-23       Impact factor: 23.213

Review 5.  Transcriptional and Epigenetic Regulation of Cardiac Electrophysiology.

Authors:  Jesus Jimenez; Stacey L Rentschler
Journal:  Pediatr Cardiol       Date:  2019-07-25       Impact factor: 1.655

6.  Importance of endothelial Hey1 expression for thoracic great vessel development and its distal enhancer for Notch-dependent endothelial transcription.

Authors:  Yusuke Watanabe; Daiki Seya; Dai Ihara; Shuhei Ishii; Taiki Uemoto; Atsushi Kubo; Yuji Arai; Yoshie Isomoto; Atsushi Nakano; Takaya Abe; Mayo Shigeta; Teruhisa Kawamura; Yoshihiko Saito; Toshihiko Ogura; Osamu Nakagawa
Journal:  J Biol Chem       Date:  2020-12-18       Impact factor: 5.157

7.  Gut microbial dysbiosis after traumatic brain injury modulates the immune response and impairs neurogenesis.

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8.  Cardiac radiotherapy induces electrical conduction reprogramming in the absence of transmural fibrosis.

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  8 in total

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