Your search keyword '"Carol A. Remme"' showing total 8 results

1. Absence of Functional Nav1.8 Channels in Non-diseased Atrial and Ventricular Cardiomyocytes

Author

Simona Casini, Vincent Portero, Gerard A Marchal, Carol Ann Remme, Joris R. de Groot, Fransisca A. Nariswari, Kaomei Guan, Antoine H.G. Driessen, Marieke W. Veldkamp, Arie O. Verkerk, Makiri Kawasaki, Nicoline W.E. van den Berg, Isabella Mengarelli, Cardiology, ACS - Heart failure & arrhythmias, Graduate School, Cardiothoracic Surgery, ACS - Pulmonary hypertension & thrombosis, Medical Biology, ACS - Amsterdam Cardiovascular Sciences, and APH - Methodology

Subjects

Male, 0301 basic medicine, Action Potentials, SCN10A/Na 1.8, 030204 cardiovascular system & hematology, 0302 clinical medicine, Left atrial, Atrial Fibrillation, Medicine, Myocytes, Cardiac, Pharmacology (medical), health care economics and organizations, Cardiomyocytes, Voltage-Gated Sodium Channel Blockers, Membrane potential, Sodium channel, Cardiac electrophysiology, General Medicine, cardiovascular system, Cardiology, SCN10A/Nav1.8, Action potential duration, Original Article, Rabbits, Electrophysiologic Techniques, Cardiac, Cardiology and Cardiovascular Medicine, medicine.medical_specialty, Cell type, Heart Ventricles, Induced Pluripotent Stem Cells, Cell Line, Sodium current, NAV1.8 Voltage-Gated Sodium Channel, 03 medical and health sciences, Species Specificity, health services administration, Late sodium current, Internal medicine, Animals, Humans, Atrial Appendage, Heart Atria, Pharmacology, hiPSC-CMs, business.industry, Atrial tissue, Kinetics, 030104 developmental biology, NAV1, business, Patch-clamp

Abstract

Purpose Several studies have indicated a potential role for SCN10A/NaV1.8 in modulating cardiac electrophysiology and arrhythmia susceptibility. However, by which mechanism SCN10A/NaV1.8 impacts on cardiac electrical function is still a matter of debate. To address this, we here investigated the functional relevance of NaV1.8 in atrial and ventricular cardiomyocytes (CMs), focusing on the contribution of NaV1.8 to the peak and late sodium current (INa) under normal conditions in different species. Methods The effects of the NaV1.8 blocker A-803467 were investigated through patch-clamp analysis in freshly isolated rabbit left ventricular CMs, human left atrial CMs and human-induced pluripotent stem cell-derived CMs (hiPSC-CMs). Results A-803467 treatment caused a slight shortening of the action potential duration (APD) in rabbit CMs and hiPSC-CMs, while it had no effect on APD in human atrial cells. Resting membrane potential, action potential (AP) amplitude, and AP upstroke velocity were unaffected by A-803467 application. Similarly, INa density was unchanged after exposure to A-803467 and NaV1.8-based late INa was undetectable in all cell types analysed. Finally, low to absent expression levels of SCN10A were observed in human atrial tissue, rabbit ventricular tissue and hiPSC-CMs. Conclusion We here demonstrate the absence of functional NaV1.8 channels in non-diseased atrial and ventricular CMs. Hence, the association of SCN10A variants with cardiac electrophysiology observed in, e.g. genome wide association studies, is likely the result of indirect effects on SCN5A expression and/or NaV1.8 activity in cell types other than CMs.

Published

2019

2. Genome-wide association of multiple complex traits in outbred mice by ultra-low-coverage sequencing

Author

Jérôme Nicod, Joseph Wood, Jean-Marie Launay, Benjamin K Yee, Arimantas Lionikas, Connie R. Bezzina, Amarjit Bhomra, Jacques Callebert, Robert W. Davies, Martin Fray, Tertius Hough, Cormac Cosgrove, Barbara Nell, Leo Goodstadt, Elisabeth M. Lodder, Richard Mott, Hayley Phelps, Jonathan Flint, Paul Klenerman, Vikte Lionikaite, Paul Franken, Steve D. M. Brown, Paul Potter, Carl Hassett, Yigal M. Pinto, Sara Wells, Alison Walling, Richard M. Aspden, Nasrin Bopp, Russell Joynson, David J. Adams, Jennifer S. Gregory, Rebecca E. McIntyre, Nick P. Talbot, Tom Weaver, Na Cai, David A. Blizard, Mark Harrison, Polinka Hernandez-Pliego, Carol Ann Remme, Peter A. Robbins, Clare Rowe, ACS - Amsterdam Cardiovascular Sciences, and Cardiology

Subjects

Genetic Markers, 0301 basic medicine, False discovery rate, Multifactorial Inheritance, Genotype, Quantitative Trait Loci, Genome-wide association study, Computational biology, Biology, Quantitative trait locus, Polymorphism, Single Nucleotide, Genetic analysis, Article, Mice, 03 medical and health sciences, Animals, Outbred Strains, Genetics, Animals, Genotyping, Genetic association, Haplotype, Chromosome Mapping, Phenotype, 030104 developmental biology, Haplotypes, Genetic marker, Genome-Wide Association Study

Abstract

Two bottlenecks impeding the genetic analysis of complex traits in rodents are access to mapping populations able to deliver gene-level mapping resolution and the need for population-specific genotyping arrays and haplotype reference panels. Here we combine low-coverage (0.15×) sequencing with a new method to impute the ancestral haplotype space in 1,887 commercially available outbred mice. We mapped 156 unique quantitative trait loci for 92 phenotypes at a 5% false discovery rate. Gene-level mapping resolution was achieved at about one-fifth of the loci, implicating Unc13c and Pgc1a at loci for the quality of sleep, Adarb2 for home cage activity, Rtkn2 for intensity of reaction to startle, Bmp2 for wound healing, Il15 and Id2 for several T cell measures and Prkca for bone mineral content. These findings have implications for diverse areas of mammalian biology and demonstrate how genome-wide association studies can be extended via low-coverage sequencing to species with highly recombinant outbred populations.

Published

2016

3. Common variants at SCN5A-SCN10A and HEY2 are associated with Brugada syndrome, a rare disease with high risk of sudden cardiac death

Author

Jade Violleau, Stefan Kääb, Susan Bartkowiak, Richard Redon, Antoine Leenhardt, Hanno L. Tan, Jean-Baptiste Gourraud, Peter Weeke, Rachel Bastiaenen, Rianne Wolswinkel, Federica Dagradi, Vincent M. Christoffels, Jacob Tfelt-Hansen, Jean-Jacques Schott, Hervé Le Marec, Manfred Gessler, Françoise Gros, Pascale Guicheney, Julien Barc, Arthur A.M. Wilde, Simon Lecointe, Akihiko Nogami, Tohru Minamino, Sven Zumhagen, Margherita Torchio, Elijah R. Behr, Rainer Schimpf, Carol Ann Remme, Florence Kyndt, Lia Crotti, Yuka Mizusawa, Morten S. Olesen, Vincent Probst, Naoto Endo, Naomasa Makita, Eric Charpentier, Philippe Froguel, Arie O. Verkerk, Minoru Horie, Takeshi Aiba, Christian Dina, Peter J. Schwartz, Kanae Hasegawa, Floriane Simonet, Véronique Fressart, Seiko Ohno, Cornelia Wiese, Eric Schulze-Bahr, Stéphane Bézieau, Hiroshi Watanabe, Vincent Portero, Wataru Shimizu, Beverley Balkau, Martin Borggrefe, Britt M. Beckmann, Charles Antzelevitch, Bas J. Boukens, Dan M. Roden, Pierre Lindenbaum, Aurore Despres, David Weber, Olivier Lantieri, Connie R. Bezzina, Stéphanie Chatel, Ruben Coronel, ACS - Amsterdam Cardiovascular Sciences, Cardiology, Medical Biology, Other departments, ARD - Amsterdam Reproduction and Development, Bezzina, C, Barc, J, Mizusawa, Y, Remme, C, Gourraud, J, Simonet, F, Verkerk, A, Schwartz, P, Crotti, L, Dagradi, F, Guicheney, P, Fressart, V, Leenhardt, A, Antzelevitch, C, Bartkowiak, S, Borggrefe, M, Schimpf, R, Schulze-Bahr, E, Zumhagen, S, Behr, E, Bastiaenen, R, Tfelt-Hansen, J, Olesen, M, Kääb, S, Beckmann, B, Weeke, P, Watanabe, H, Endo, N, Minamino, T, Horie, M, Ohno, S, Hasegawa, K, Makita, N, Nogami, A, Shimizu, W, Aiba, T, Froguel, P, Balkau, B, Lantieri, O, Torchio, M, Wiese, C, Weber, D, Wolswinkel, R, Coronel, R, Boukens, B, Bézieau, S, Charpentier, E, Chatel, S, Despres, A, Gros, F, Kyndt, F, Lecointe, S, Lindenbaum, P, Portero, V, Violleau, J, Gessler, M, Tan, H, Roden, D, Christoffels, V, Le Marec, H, Wilde, A, Probst, V, Schott, J, Dina, C, and Redon, R

Subjects

Male, Qrs Duration, Bioinformatics, Sodium Channels, NAV1.5 Voltage-Gated Sodium Channel, Sudden cardiac death, Genome-Wide Association, Mice, Atrial Gene-Expression, Basic Helix-Loop-Helix Transcription Factors, Odds Ratio, Brugada Syndrome, Brugada syndrome, Mice, Knockout, St-Segment Elevation, SECS-S/01 - STATISTICA, cardiovascular system, Cardiology, Chromosomes, Human, Pair 6, Female, Chromosomes, Human, Pair 3, medicine.medical_specialty, Bundle-Branch Block, BIO/18 - GENETICA, Locus (genetics), Biology, Polymorphism, Single Nucleotide, Article, NAV1.8 Voltage-Gated Sodium Channel, Internal medicine, Genetic variation, Cardiac conduction, Genetics, medicine, Animals, Humans, Genetic Predisposition to Disease, cardiovascular diseases, HEY2, Alleles, Heart-Rate, Genetic Variation, Cardiac arrhythmia, MED/11 - MALATTIE DELL'APPARATO CARDIOVASCOLARE, medicine.disease, Qt Interval Duration, Repressor Proteins, Ventricular-Fibrillation, Pr Interval, Death, Sudden, Cardiac, Case-Control Studies, Conduction System, Genome-Wide Association Study, Rare disease

Abstract

Brugada syndrome is a rare cardiac arrhythmia disorder, causally related to SCN5A mutations in around 20% of cases. Through a genome-wide association study of 312 individuals with Brugada syndrome and 1,115 controls, we detected 2 significant association signals at the SCN10A locus (rs10428132) and near the HEY2 gene (rs9388451). Independent replication confirmed both signals (meta-analyses: rs10428132, P = 1.0 × 10(-68); rs9388451, P = 5.1 × 10(-17)) and identified one additional signal in SCN5A (at 3p21; rs11708996, P = 1.0 × 10(-14)). The cumulative effect of the three loci on disease susceptibility was unexpectedly large (Ptrend = 6.1 × 10(-81)). The association signals at SCN5A-SCN10A demonstrate that genetic polymorphisms modulating cardiac conduction can also influence susceptibility to cardiac arrhythmia. The implication of association with HEY2, supported by new evidence that Hey2 regulates cardiac electrical activity, shows that Brugada syndrome may originate from altered transcriptional programming during cardiac development. Altogether, our findings indicate that common genetic variation can have a strong impact on the predisposition to rare diseases.

Published

2013

4. The cardiac sodium channel displays differential distribution in the conduction system and transmural heterogeneity in the murine ventricular myocardium

Author

Vincent M. Christoffels, Marieke W. Veldkamp, J. M. T. de Bakker, Wim T.J. Aanhaanen, M. J. B. Van Den Hoff, Willem M.H. Hoogaars, T. A. B. van Veen, Connie R. Bezzina, C. Annink, Carol Ann Remme, Brendon P. Scicluna, Arthur A.M. Wilde, Arie O. Verkerk, Faculteit der Geneeskunde, ACS - Amsterdam Cardiovascular Sciences, Cardiology, Medical Biology, Center of Experimental and Molecular Medicine, and ARD - Amsterdam Reproduction and Development

Subjects

Male, Bundle of His, medicine.medical_specialty, Patch-Clamp Techniques, Physiology, Purkinje fibers, Heart Ventricles, Recombinant Fusion Proteins, Action Potentials, Muscle Proteins, Biology, NAV1.5 Voltage-Gated Sodium Channel, Conduction, Transfection, Sodium Channels, Cell Line, Purkinje Fibers, Mice, Heart Conduction System, Physiology (medical), Internal medicine, medicine, Animals, Humans, RNA, Messenger, Cardiac conduction system, In Situ Hybridization, Endocardium, Myocardium, Sodium channel, Gene Expression Regulation, Developmental, Original Contribution, Immunohistochemistry, Bundle branches, Atrioventricular node, Cardiac sodium channel, medicine.anatomical_structure, Atrioventricular Node, cardiovascular system, Cardiology, Patch clamp, Electrical conduction system of the heart, Cardiology and Cardiovascular Medicine

Abstract

Cardiac sodium channels are responsible for conduction in the normal and diseased heart. We aimed to investigate regional and transmural distribution of sodium channel expression and function in the myocardium. Sodium channel Scn5a mRNA and Nav1.5 protein distribution was investigated in adult and embryonic mouse heart through immunohistochemistry and in situ hybridization. Functional sodium channel availability in subepicardial and subendocardial myocytes was assessed using patch-clamp technique. Adult and embryonic (ED14.5) mouse heart sections showed low expression of Nav1.5 in the HCN4-positive sinoatrial and atrioventricular nodes. In contrast, high expression levels of Nav1.5 were observed in the HCN4-positive and Cx43-negative AV or His bundle, bundle branches and Purkinje fibers. In both ventricles, a transmural gradient was observed, with a low Nav1.5 labeling intensity in the subepicardium as compared to the subendocardium. Similar Scn5a mRNA expression patterns were observed on in situ hybridization of embryonic and adult tissue. Maximal action potential upstroke velocity was significantly lower in subepicardial myocytes (mean ± SEM 309 ± 32 V/s; n = 14) compared to subendocardial myocytes (394 ± 32 V/s; n = 11; P

Published

2009

5. Diversity in cardiac sodium channel disease phenotype in transgenic mice carrying a single SCN5A mutation

Author

C. R. Bezzina, A. O. Verkerk, Marieke W. Veldkamp, Carol Ann Remme, J. M. T. de Bakker, Aam Wilde, Amsterdam Cardiovascular Sciences, Cardiology, and Medical Biology

Subjects

Genetics, Genetically modified mouse, Scn5a gene, business.industry, Sodium channel, medicine.disease, Sudden death, Sick sinus syndrome, Biotechnology, cardiovascular system, Genetic predisposition, Interuniversity Cardiology Institute of the Netherlands, Medicine, cardiovascular diseases, Cardiology and Cardiovascular Medicine, business, Ion channel, Brugada syndrome

Abstract

Lethal ventricular arrhythmias are increasingly considered an important cause of sudden death in relatively young individuals. A genetic predisposition has been recognised in many cases, and research in the last decade has focused on underlying inherited mutations in cardiac ion channels.

Published

2007

6. [Untitled]

Author

Carol Ann Remme and Arthur A.M. Wilde

Subjects

Pharmacology, Myocardial ischemia, Heart disease, business.industry, Cardiac electrophysiology, media_common.quotation_subject, Ischemia, General Medicine, medicine.disease, Coronary heart disease, Electrophysiology, Katp channels, Anesthesia, medicine, Pharmacology (medical), Worry, Cardiology and Cardiovascular Medicine, business, media_common

Published

2000

7. [Untitled]

Author

Maria Paola Lombardi, Carol Ann Remme, R. H. Lekanne dit Deprez, and M. J. B. Van Den Hoff

Subjects

Pharmacology, CDNA Arrays, business.industry, Medicine, Pharmacology (medical), General Medicine, Computational biology, Cardiology and Cardiovascular Medicine, business

Published

2001

8. Erratum: Common variants at SCN5A-SCN10A and HEY2 are associated with Brugada syndrome, a rare disease with high risk of sudden cardiac death

Author

Connie R. Bezzina, Kanae Hasegawa, Tohru Minamino, Peter Weeke, Rachel Bastiaenen, Jean-Jacques Schott, Rianne Wolswinkel, Olivier Lantieri, Vincent M. Christoffels, Simon Lecointe, Wataru Shimizu, Véronique Fressart, Richard Redon, Philippe Froguel, Lia Crotti, Charles Antzelevitch, Morten S. Olesen, Manfred Gessler, Stéphanie Chatel, Dan M. Roden, Beverley Balkau, Arie O. Verkerk, Britt M. Beckmann, Jade Violleau, Stéphane Bézieau, Arthur A.M. Wilde, Ruben Coronel, David Weber, Christian Dina, Hiroshi Watanabe, Pierre Lindenbaum, Stefan Kääb, Julien Barc, Aurore Despres, Peter J. Schwartz, Eric Charpentier, Carol Ann Remme, Akihiko Nogami, Minoru Horie, Margherita Torchio, Sven Zumhagen, Françoise Gros, Naomasa Makita, Florence Kyndt, Cornelia Wiese, Vincent Probst, Naoto Endo, Takeshi Aiba, Hervé Le Marec, Susan Bartkowiak, Bas J. Boukens, Seiko Ohno, Eric Schulze-Bahr, Pascale Guicheney, Antoine Leenhardt, Vincent Portero, Hanno L. Tan, Yuka Mizusawa, Jacob Tfelt-Hansen, Elijah R. Behr, Floriane Simonet, Jean-Baptiste Gourraud, and Federica Dagradi

Subjects

Genetics, medicine, Biology, HEY2, medicine.disease, Sudden cardiac death, Brugada syndrome, Rare disease

Published

2013