Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Transcriptional regulation of the sodium channel gene (SCN5A) by GATA4 in human heart.

Literature DB >> 27894866

Transcriptional regulation of the sodium channel gene (SCN5A) by GATA4 in human heart.

Anna Tarradas¹, Mel Lina Pinsach-Abuin², Carlos Mackintosh³, Oriol Llorà-Batlle¹, Alexandra Pérez-Serra¹, Montserrat Batlle⁴, Félix Pérez-Villa⁴, Thomas Zimmer⁵, Ivan Garcia-Bassets³, Ramon Brugada⁶, Pedro Beltran-Alvarez⁷, Sara Pagans⁸.

Abstract

Aberrant expression of the sodium channel gene (SCN5A) has been proposed to disrupt cardiac action potential and cause human cardiac arrhythmias, but the mechanisms of SCN5A gene regulation and dysregulation still remain largely unexplored. To gain insight into the transcriptional regulatory networks of SCN5A, we surveyed the promoter and first intronic regions of the SCN5A gene, predicting the presence of several binding sites for GATA transcription factors (TFs). Consistent with this prediction, chromatin immunoprecipitation (ChIP) and sequential ChIP (Re-ChIP) assays show co-occupancy of cardiac GATA TFs GATA4 and GATA5 on promoter and intron 1 SCN5A regions in fresh-frozen human left ventricle samples. Gene reporter experiments show GATA4 and GATA5 synergism in the activation of the SCN5A promoter, and its dependence on predicted GATA binding sites. GATA4 and GATA6 mRNAs are robustly expressed in fresh-frozen human left ventricle samples as measured by highly sensitive droplet digital PCR (ddPCR). GATA5 mRNA is marginally but still clearly detected in the same samples. Importantly, GATA4 mRNA levels are strongly and positively correlated with SCN5A transcript levels in the human heart. Together, our findings uncover a novel mechanism of GATA TFs in the regulation of the SCN5A gene in human heart tissue. Our studies suggest that GATA5 but especially GATA4 are main contributors to SCN5A gene expression, thus providing a new paradigm of SCN5A expression regulation that may shed new light into the understanding of cardiac disease. Copyright Â

Entities: Disease Gene Species

Keywords: Cardiac arrhythmias; GATA4; GATA5; GATA6; SCN5A; Transcriptional regulation

Mesh：

Substances：

Year: 2016 PMID： 27894866 DOI： 10.1016/j.yjmcc.2016.10.013

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

Keyword Cloud
Cited

13 in total

1. Do sodium channel proteolytic fragments regulate sodium channel expression?

Authors: Donatus O Onwuli; Laia Yañez-Bisbe; Mel Lina Pinsach-Abuin; Anna Tarradas; Ramon Brugada; John Greenman; Sara Pagans; Pedro Beltran-Alvarez
Journal: Channels (Austin) Date: 2017-07-18 Impact factor: 2.581

Review 2. Unmasking the molecular link between arrhythmogenic cardiomyopathy and Brugada syndrome.

Authors: Javier Moncayo-Arlandi; Ramon Brugada
Journal: Nat Rev Cardiol Date: 2017-07-13 Impact factor: 32.419

3. A small-molecule LF3 abrogates β-catenin/TCF4-mediated suppression of Na_V1.5 expression in HL-1 cardiomyocytes.

Authors: Limei Zhao; Lihua Sun; Yan Lu; Faqian Li; Haodong Xu
Journal: J Mol Cell Cardiol Date: 2019-08-13 Impact factor: 5.000

4. Identification, molecular characterization and analysis of the expression pattern of SoxF subgroup genes the Yellow River carp, Cyprinus carpio.

Authors: Tingting Liang; Yongfang Jia; Ruihua Zhang; Qiyan Du; Zhongjie Chang
Journal: J Genet Date: 2018-03 Impact factor: 1.166

Review 5. Genetic and non-genetic risk factors associated with atrial fibrillation.

Authors: Lindsay J Young; Steve Antwi-Boasiako; Joel Ferrall; Loren E Wold; Peter J Mohler; Mona El Refaey
Journal: Life Sci Date: 2022-04-03 Impact factor: 6.780

6. Genome-wide association analyses identify new Brugada syndrome risk loci and highlight a new mechanism of sodium channel regulation in disease susceptibility.

Authors: Julien Barc; Rafik Tadros; Charlotte Glinge; David Y Chiang; Mariam Jouni; Floriane Simonet; Vincent Probst; Arthur A Wilde; Jean-Jacques Schott; Richard Redon; Connie R Bezzina; Sean J Jurgens; Manon Baudic; Michele Nicastro; Franck Potet; Joost A Offerhaus; Roddy Walsh; Seung Hoan Choi; Arie O Verkerk; Yuka Mizusawa; Soraya Anys; Damien Minois; Marine Arnaud; Josselin Duchateau; Yanushi D Wijeyeratne; Alison Muir; Michael Papadakis; Silvia Castelletti; Margherita Torchio; Cristina Gil Ortuño; Javier Lacunza; Daniela F Giachino; Natascia Cerrato; Raphaël P Martins; Oscar Campuzano; Sonia Van Dooren; Aurélie Thollet; Florence Kyndt; Andrea Mazzanti; Nicolas Clémenty; Arnaud Bisson; Anniek Corveleyn; Birgit Stallmeyer; Sven Dittmann; Johan Saenen; Antoine Noël; Shohreh Honarbakhsh; Boris Rudic; Halim Marzak; Matthew K Rowe; Claire Federspiel; Sophie Le Page; Leslie Placide; Antoine Milhem; Hector Barajas-Martinez; Britt-Maria Beckmann; Ingrid P Krapels; Johannes Steinfurt; Bo Gregers Winkel; Reza Jabbari; Moore B Shoemaker; Bas J Boukens; Doris Škorić-Milosavljević; Hennie Bikker; Federico Manevy; Peter Lichtner; Marta Ribasés; Thomas Meitinger; Martina Müller-Nurasyid; Jan H Veldink; Leonard H van den Berg; Philip Van Damme; Daniele Cusi; Chiara Lanzani; Sidwell Rigade; Eric Charpentier; Estelle Baron; Stéphanie Bonnaud; Simon Lecointe; Audrey Donnart; Hervé Le Marec; Stéphanie Chatel; Matilde Karakachoff; Stéphane Bézieau; Barry London; Jacob Tfelt-Hansen; Dan Roden; Katja E Odening; Marina Cerrone; Larry A Chinitz; Paul G Volders; Maarten P van de Berg; Gabriel Laurent; Laurence Faivre; Charles Antzelevitch; Stefan Kääb; Alain Al Arnaout; Jean-Marc Dupuis; Jean-Luc Pasquie; Olivier Billon; Jason D Roberts; Laurence Jesel; Martin Borggrefe; Pier D Lambiase; Jacques Mansourati; Bart Loeys; Antoine Leenhardt; Pascale Guicheney; Philippe Maury; Eric Schulze-Bahr; Tomas Robyns; Jeroen Breckpot; Dominique Babuty; Silvia G Priori; Carlo Napolitano; Carlo de Asmundis; Pedro Brugada; Ramon Brugada; Elena Arbelo; Josep Brugada; Philippe Mabo; Nathalie Behar; Carla Giustetto; Maria Sabater Molina; Juan R Gimeno; Can Hasdemir; Peter J Schwartz; Lia Crotti; Pascal P McKeown; Sanjay Sharma; Elijah R Behr; Michel Haissaguerre; Frédéric Sacher; Caroline Rooryck; Hanno L Tan; Carol A Remme; Pieter G Postema; Mario Delmar; Patrick T Ellinor; Steven A Lubitz; Jean-Baptiste Gourraud; Michael W Tanck; Alfred L George; Calum A MacRae; Paul W Burridge; Christian Dina
Journal: Nat Genet Date: 2022-02-24 Impact factor: 41.307

Transcriptional regulation of the sodium channel gene (SCN5A) by GATA4 in human heart.

1. Do sodium channel proteolytic fragments regulate sodium channel expression?

Review 2. Unmasking the molecular link between arrhythmogenic cardiomyopathy and Brugada syndrome.

3. A small-molecule LF3 abrogates β-catenin/TCF4-mediated suppression of Na_V1.5 expression in HL-1 cardiomyocytes.

4. Identification, molecular characterization and analysis of the expression pattern of SoxF subgroup genes the Yellow River carp, Cyprinus carpio.

Review 5. Genetic and non-genetic risk factors associated with atrial fibrillation.

6. Genome-wide association analyses identify new Brugada syndrome risk loci and highlight a new mechanism of sodium channel regulation in disease susceptibility.

7. Cardiomyocyte Deletion of Bmal1 Exacerbates QT- and RR-Interval Prolongation in Scn5a ^+/ΔKPQ Mice.

Review 8. Role of Non-Coding Variants in Brugada Syndrome.

Review 9. Update on Genetic Basis of Brugada Syndrome: Monogenic, Polygenic or Oligogenic?

10. Epigenetic Changes Governing Scn5a Expression in Denervated Skeletal Muscle.

Transcriptional regulation of the sodium channel gene (SCN5A) by GATA4 in human heart.

1. Do sodium channel proteolytic fragments regulate sodium channel expression?

Review 2. Unmasking the molecular link between arrhythmogenic cardiomyopathy and Brugada syndrome.

3. A small-molecule LF3 abrogates β-catenin/TCF4-mediated suppression of NaV1.5 expression in HL-1 cardiomyocytes.

4. Identification, molecular characterization and analysis of the expression pattern of SoxF subgroup genes the Yellow River carp, Cyprinus carpio.

Review 5. Genetic and non-genetic risk factors associated with atrial fibrillation.

6. Genome-wide association analyses identify new Brugada syndrome risk loci and highlight a new mechanism of sodium channel regulation in disease susceptibility.

7. Cardiomyocyte Deletion of Bmal1 Exacerbates QT- and RR-Interval Prolongation in Scn5a +/ΔKPQ Mice.

Review 8. Role of Non-Coding Variants in Brugada Syndrome.

Review 9. Update on Genetic Basis of Brugada Syndrome: Monogenic, Polygenic or Oligogenic?

10. Epigenetic Changes Governing Scn5a Expression in Denervated Skeletal Muscle.

3. A small-molecule LF3 abrogates β-catenin/TCF4-mediated suppression of Na_V1.5 expression in HL-1 cardiomyocytes.

7. Cardiomyocyte Deletion of Bmal1 Exacerbates QT- and RR-Interval Prolongation in Scn5a ^+/ΔKPQ Mice.