Your search keyword '"Schott, Jean-Jacques"' showing total 60 results

1. Exome sequencing data reanalysis of 200 hypertrophic cardiomyopathy patients: the HYPERGEN French cohort 5 years after the initial analysis.

Author

Jaouadi, Hager, Morel, Victor, Martel, Helene, Lindenbaum, Pierre, de la Chapelle, Lorcan Lamy, Herbane, Marine, Lucas, Claire, Magdinier, Frédérique, Gilbert, Habib, Schott, Jean-Jacques, Zaffran, Stéphane, and Nguyen, Karine

Published

2024

2. Exome sequencing data reanalysis of 200 hypertrophic cardiomyopathy patients: the HYPERGEN French cohort 5 years after the initial analysis.

Author

Jaouadi, Hager, Morel, Victor, Martel, Helene, Lindenbaum, Pierre, de la Chapelle, Lorcan Lamy, Herbane, Marine, Lucas, Claire, Magdinier, Frédérique, Gilbert, Habib, Schott, Jean-Jacques, Zaffran, Stéphane, and Nguyen, Karine

Published

2024

3. Exploring the origins of neurodevelopmental proteasomopathies associated with cardiac malformations: are neural crest cells central to certain pathological mechanisms?

Author

Vignard, Virginie, Baruteau, Alban-Elouen, Toutain, Bérénice, Mercier, Sandra, Isidor, Bertrand, Redon, Richard, Schott, Jean-Jacques, Küry, Sébastien, Bézieau, Stéphane, Monsoro-Burq, Anne H., and Ebstein, Frédéric

Subjects

NEURAL crest, NEURAL development, HUMAN abnormalities, PROTEASOMES, HOMEOSTASIS

Abstract

Neurodevelopmental proteasomopathies constitute a recently defined class of rare Mendelian disorders, arising from genomic alterations in proteasome-related genes. These alterations result in the dysfunction of proteasomes, which are multi-subunit protein complexes essential for maintaining cellular protein homeostasis. The clinical phenotype of these diseases manifests as a syndromic association involving impaired neural development and multisystem abnormalities, notably craniofacial anomalies and malformations of the cardiac outflow tract (OFT). These observations suggest that proteasome loss-offunction variants primarily affect specific embryonic cell types which serve as origins for both craniofacial structures and the conotruncal portion of the heart. In this hypothesis article, we propose that neural crest cells (NCCs), a highly multipotent cell population, which generates craniofacial skeleton, mesenchyme as well as the OFT of the heart, in addition to many other derivatives, would exhibit a distinctive vulnerability to protein homeostasis perturbations. Herein, we introduce the diverse cellular compensatory pathways activated in response to protein homeostasis disruption and explore their potential implications for NCC physiology. Altogether, the paper advocates for investigating proteasome biology within NCCs and their early cranial and cardiac derivatives, offering a rationale for future exploration and laying the initial groundwork for therapeutic considerations. [ABSTRACT FROM AUTHOR]

Published

2024

4. Filamin A heart valve disease as a genetic cause of inherited bicuspid and tricuspid aortic valve disease.

Author

Delwarde, Constance, Toquet, Claire, Boureau, Anne Sophie, Le Ruz, Robin, Le Scouarnec, Solena, Mérot, Jean, Kyndt, Florence, Bernstein, Daniel, Bernstein, Jonathan A., Aalberts, Jan J. J., Le Marec, Hervé, Schott, Jean-Jacques, Roussel, Jean-Christian, Le Tourneau, Thierry, and Capoulade, Romain

Published

2024

5. Variations in the poly-histidine repeat motif of HOXA1 contribute to bicuspid aortic valve in mouse and zebrafish.

Author

Odelin, Gaëlle, Faucherre, Adèle, Marchese, Damien, Pinard, Amélie, Jaouadi, Hager, Le Scouarnec, Solena, FranceGenRef Consortium, Deleuze, Jean-François, Génin, Emmanuelle, Lindenbaum, Pierre, Redon, Richard, Schott, Jean-Jacques, Chiarelli, Raphaël, Achouri, Younes, Faure, Emilie, Herbane, Marine, Théron, Alexis, Avierinos, Jean-François, Jopling, Chris, and Collod-Béroud, Gwenaëlle

Subjects

AORTIC valve, MITRAL valve, BRACHYDANIO, MICE, CELL migration, HISTIDINE

Abstract

Bicuspid aortic valve (BAV), the most common cardiovascular malformation occurs in 0.5–1.2% of the population. Although highly heritable, few causal mutations have been identified in BAV patients. Here, we report the targeted sequencing of HOXA1 in a cohort of BAV patients and the identification of rare indel variants in the homopolymeric histidine tract of HOXA1. In vitro analysis shows that disruption of this motif leads to a significant reduction in protein half-life and defective transcriptional activity of HOXA1. In zebrafish, targeting hoxa1a ortholog results in aortic valve defects. In vivo assays indicates that these variants behave as dominant negatives leading abnormal valve development. In mice, deletion of Hoxa1 leads to BAV with a very small, rudimentary non-coronary leaflet. We also show that 17% of homozygous Hoxa1−1His knock-in mice present similar phenotype. Genetic lineage tracing in Hoxa1−/− mutant mice reveals an abnormal reduction of neural crest-derived cells in the valve leaflet, which is caused by a failure of early migration of these cells. Bicuspid aortic valve (BAV) is the most common cardiac defect and although highly heritable, few causal mutations have been identified. Here, the authors identify variants in the poly-histidine repeat motif of HOXA1 and show that its disruption leads to BAV in mice. [ABSTRACT FROM AUTHOR]

Published

2023

6. Multimodality imaging and transcriptomics to phenotype mitral valve dystrophy in a unique knock-in Filamin-A rat model.

Author

Delwarde, Constance, Toquet, Claire, Aumond, Pascal, Kayvanjoo, Amir Hossein, Foucal, Adrien, Vely, Benjamin Le, Baudic, Manon, Lauzier, Benjamin, Blandin, Stéphanie, Véziers, Joëlle, Paul-Gilloteaux, Perrine, Lecointe, Simon, Baron, Estelle, Massaiu, Ilaria, Poggio, Paolo, Rémy, Séverine, Anegon, Ignacio, Marec, Hervé Le, Monassier, Laurent, and Schott, Jean-Jacques

Subjects

MITRAL valve, ANIMAL disease models, DOPPLER echocardiography, DYSTROPHY, EXTRACELLULAR matrix, MITRAL valve prolapse

Abstract

Aims Degenerative mitral valve dystrophy (MVD) leading to mitral valve prolapse is the most frequent form of MV disease, and there is currently no pharmacological treatment available. The limited understanding of the pathophysiological mechanisms leading to MVD limits our ability to identify therapeutic targets. This study aimed to reveal the main pathophysiological pathways involved in MVD via the multimodality imaging and transcriptomic analysis of the new and unique knock-in (KI) rat model for the FilaminA-P637Q (FlnA-P637Q) mutation associated-MVD. Methods and results Wild-type (WT) and KI rats were evaluated morphologically, functionally, and histologically between 3-week-old and 3-to-6-month-old based on Doppler echocardiography, 3D micro-computed tomography (microCT), and standard histology. RNA-sequencing and Assay for Transposase-Accessible Chromatin (ATAC-seq) were performed on 3-week-old WT and KI mitral valves and valvular cells, respectively, to highlight the main signalling pathways associated with MVD. Echocardiographic exploration confirmed MV elongation (2.0 ± 0.1 mm vs. 1.8 ± 0.1, P = 0.001), as well as MV thickening and prolapse in KI animals compared to WT at 3 weeks. 3D MV volume quantified by microCT was significantly increased in KI animals (+58% vs. WT, P = 0.02). Histological analyses revealed a myxomatous remodelling in KI MV characterized by proteoglycans accumulation. A persistent phenotype was observed in adult KI rats. Signalling pathways related to extracellular matrix homeostasis, response to molecular stress, epithelial cell migration, endothelial to mesenchymal transition, chemotaxis and immune cell migration, were identified based on RNA-seq analysis. ATAC-seq analysis points to the critical role of transforming growth factor-β and inflammation in the disease. Conclusion The KI FlnA-P637Q rat model mimics human myxomatous MVD, offering a unique opportunity to decipher pathophysiological mechanisms related to this disease. Extracellular matrix organization, epithelial cell migration, response to mechanical stress, and a central contribution of immune cells are highlighted as the main signalling pathways leading to myxomatous MVD. Our findings pave the road to decipher underlying molecular mechanisms and the specific role of distinct cell populations in this context. [ABSTRACT FROM AUTHOR]

Published

2023

7. Burden of rare variants in arrhythmogenic cardiomyopathy with right dominant form‐associated genes provides new insights for molecular diagnosis and clinical management.

Author

Goudal, Adeline, Karakachoff, Matilde, Lindenbaum, Pierre, Baron, Estelle, Bonnaud, Stéphanie, Kyndt, Florence, Arnaud, Marine, Minois, Damien, Bourcereau, Emmanuelle, Thollet, Aurélie, Deleuze, Jean‐François, Genin, Emmanuelle, Wiart, François, Pasquié, Jean‐Luc, Galand, Vincent, Sacher, Frédéric, Dina, Christian, Redon, Richard, Bezieau, Stéphane, and Schott, Jean‐Jacques

Abstract

Arrhythmogenic cardiomyopathy with right dominant form (ACR) is a rare heritable cardiac cardiomyopathy disorder associated with sudden cardiac death. Pathogenic variants (PVs) in desmosomal genes have been causally related to ACR in 40% of cases. Other genes encoding nondesmosomal proteins have been described in ACR, but their contribution in this pathology is still debated. A panel of 71 genes associated with inherited cardiopathies was screened in an ACR population of 172 probands and 856 individuals from the general population. PVs and uncertain significance variants (VUS) have been identified in 36% and 18.6% of patients, respectively. Among the cardiopathy‐associated genes, burden tests show a significant enrichment in PV and VUS only for desmosomal genes PKP2 (plakophilin‐2), DSP (desmoplakin), DSC2 (desmocollin‐2), and DSG2 (desmoglein‐2). Importantly, VUS may account for 15% of ACR cases and should then be considered for molecular diagnosis. Among the other genes, no evidence of enrichment was detected, suggesting an extreme caution in the interpretation of these genetic variations without associated functional or segregation data. Genotype–phenotype correlation points to (1) a more severe and earlier onset of the disease in PV and VUS carriers, underlying the importance to carry out presymptomatic diagnosis in relatives and (2) to a more prevalent left ventricular dysfunction in DSP variant carriers. [ABSTRACT FROM AUTHOR]

Published

2022

8. Moment estimators of relatedness from low-depth whole-genome sequencing data.

Author

Herzig, Anthony F., Ciullo, M., FranceGenRef Consortium, Deleuze, Jean-François, Génin, Emmanuelle, Redon, Richard, Adjou, Chantal, Chatel, Stéphanie, Férec, Claude, Goldberg, Marcel, Halbout, Philippe-Antoine, Le Marec, Hervé, L'Helgouach, David, Rouault, Karen, Schott, Jean-Jacques, Vogelsperger, Anne, Zins, Marie, Bacq, Delphine, Blanchet, Hélène, and Boland, Anne

Subjects

NUCLEOTIDE sequencing, KINSHIP, BROTHERLINESS, GENOTYPES

Abstract

Background: Estimating relatedness is an important step for many genetic study designs. A variety of methods for estimating coefficients of pairwise relatedness from genotype data have been proposed. Both the kinship coefficient φ and the fraternity coefficient ψ for all pairs of individuals are of interest. However, when dealing with low-depth sequencing or imputation data, individual level genotypes cannot be confidently called. To ignore such uncertainty is known to result in biased estimates. Accordingly, methods have recently been developed to estimate kinship from uncertain genotypes. Results: We present new method-of-moment estimators of both the coefficients φ and ψ calculated directly from genotype likelihoods. We have simulated low-depth genetic data for a sample of individuals with extensive relatedness by using the complex pedigree of the known genetic isolates of Cilento in South Italy. Through this simulation, we explore the behaviour of our estimators, demonstrate their properties, and show advantages over alternative methods. A demonstration of our method is given for a sample of 150 French individuals with down-sampled sequencing data. Conclusions: We find that our method can provide accurate relatedness estimates whilst holding advantages over existing methods in terms of robustness, independence from external software, and required computation time. The method presented in this paper is referred to as LowKi (Low-depth Kinship) and has been made available in an R package (https://github.com/genostats/LowKi). [ABSTRACT FROM AUTHOR]

Published

2022

9. A standardised hERG phenotyping pipeline to evaluate KCNH2 genetic variant pathogenicity.

Author

Oliveira‐Mendes, Barbara, Feliciangeli, Sylvain, Ménard, Mélissa, Chatelain, Frank, Alameh, Malak, Montnach, Jérôme, Nicolas, Sébastien, Ollivier, Béatrice, Barc, Julien, Baró, Isabelle, Schott, Jean‐Jacques, Probst, Vincent, Kyndt, Florence, Denjoy, Isabelle, Lesage, Florian, Loussouarn, Gildas, and De Waard, Michel

Subjects

GENETIC variation, ION channels, MEDICAL personnel, LONG QT syndrome, INDIVIDUALIZED medicine, BRUGADA syndrome, DIAGNOSIS

Abstract

Background and aims: Mutations in KCNH2 cause long or short QT syndromes (LQTS or SQTS) predisposing to life‐threatening arrhythmias. Over 1000 hERG variants have been described by clinicians, but most remain to be characterised. The objective is to standardise and accelerate the phenotyping process to contribute to clinician diagnosis and patient counselling. In silico evaluation was also included to characterise the structural impact of the variants. Methods: We selected 11 variants from known LQTS patients and two variants for which diagnosis was problematic. Using the Gibson assembly strategy, we efficiently introduced mutations in hERG cDNA despite GC‐rich sequences. A pH‐sensitive fluorescent tag was fused to hERG for efficient evaluation of channel trafficking. An optimised 35‐s patch‐clamp protocol was developed to evaluate hERG channel activity in transfected cells. R software was used to speed up analyses. Results: In the present work, we observed a good correlation between cell surface expression, assessed by the pH‐sensitive tag, and current densities. Also, we showed that the new biophysical protocol allows a significant gain of time in recording ion channel properties and provides extensive information on WT and variant channel biophysical parameters, that can all be recapitulated in a single parameter defined herein as the repolarisation power. The impacts of the variants on channel structure were also reported where structural information was available. These three readouts (trafficking, repolarisation power and structural impact) define three pathogenicity indexes that may help clinical diagnosis. Conclusions: Fast‐track characterisation of KCNH2 genetic variants shows its relevance to discriminate mutants that affect hERG channel activity from variants with undetectable effects. It also helped the diagnosis of two new variants. This information is meant to fill a patient database, as a basis for personalised medicine. The next steps will be to further accelerate the process using an automated patch‐clamp system. [ABSTRACT FROM AUTHOR]

Published

2021

10. DZIP1 regulates mammalian cardiac valve development through a Cby1‐β‐catenin mechanism.

Author

Guo, Lilong, Beck, Tyler, Fulmer, Diana, Ramos‐Ortiz, Sandra, Glover, Janiece, Wang, Christina, Moore, Kelsey, Gensemer, Cortney, Morningstar, Jordan, Moore, Reece, Schott, Jean‐Jacques, Le Tourneau, Thierry, Koren, Natalie, and Norris, Russell A.

Subjects

MITRAL valve prolapse, HEART valves, CARDIOVASCULAR diseases, DISEASE progression, PHENOTYPES, PATHOGENESIS

Abstract

Background: Mitral valve prolapse (MVP) is a common and progressive cardiovascular disease with developmental origins. How developmental errors contribute to disease pathogenesis are not well understood. Results: A multimeric complex was identified that consists of the MVP gene Dzip1, Cby1, and β‐catenin. Co‐expression during valve development revealed overlap at the basal body of the primary cilia. Biochemical studies revealed a DZIP1 peptide required for stabilization of the complex and suppression of β‐catenin activities. Decoy peptides generated against this interaction motif altered nuclear vs cytosolic levels of β‐catenin with effects on transcriptional activity. A mutation within this domain was identified in a family with inherited non‐syndromic MVP. This novel mutation and our previously identified DZIP1S24R variant resulted in reduced DZIP1 and CBY1 stability and increased β‐catenin activities. The β‐catenin target gene, MMP2 was up‐regulated in the Dzip1S14R/+ valves and correlated with loss of collagenous ECM matrix and myxomatous phenotype. Conclusion: Dzip1 functions to restrain β‐catenin signaling through a CBY1 linker during cardiac development. Loss of these interactions results in increased nuclear β‐catenin/Lef1 and excess MMP2 production, which correlates with developmental and postnatal changes in ECM and generation of a myxomatous phenotype. [ABSTRACT FROM AUTHOR]

Published

2021

11. A consistent arrhythmogenic trait in Brugada syndrome cellular phenotype.

Author

Al Sayed, Zeina R., Jouni, Mariam, Gourraud, Jean‐Baptiste, Belbachir, Nadjet, Barc, Julien, Girardeau, Aurore, Forest, Virginie, Derevier, Aude, Gaignerie, Anne, Chariau, Caroline, Cimarosti, Bastien, Canac, Robin, Olchesqui, Pierre, Charpentier, Eric, Schott, Jean‐Jacques, Redon, Richard, Baró, Isabelle, Probst, Vincent, Charpentier, Flavien, and Loussouarn, Gildas

Subjects

PHENOTYPES, BRUGADA syndrome, GENETIC variation, THERAPEUTICS

Abstract

Global cellular electrophysiological phenotype was then evaluated with action potential (AP) recordings, but no AP basal parameters specifically segregated BrS hiPSC-CMs, and spontaneous beating frequencies did not differ between all cell lines (Figure S4). Brugada syndrome (BrS) is an inherited arrhythmic disease predisposing to sudden cardiac death (SCD), characterized by a typical electrocardiogram pattern that includes a J point elevation with a coved type ST segment.1 BrS is a complex genetic disease in which ~20% of patients carry rare variants in I SCN5A i gene, whereas the others remain genetically unresolved.2 Despite this genetic complexity, we hypothesize that a common cellular phenotypic trait is at the root of this specific BrS ECG pattern. Importantly, the expression of I SCN5A i , the main BrS culprit gene identified to date,4 remained unchanged, excluding I SCN5A i expression levels as a hallmark for BrS hiPSC-CM phenotype. Early afterdepolarizations (EADs) were observed in 39-70% of all six BrS ventricular-like hiPSC-CMs versus only in 4% and 4.7% of Ctrl and non-BrS hiPSC-CMs, respectively (Figure 3B, Figure S5). [Extracted from the article]

Published

2021

12. Lipoprotein-associated phospholipase A2 activity, genetics and calcific aortic valve stenosis in humans.

Author

Perrot, Nicolas, Thériault, Sébastien, Rigade, Sidwell, Hao Yu Chen, Dina, Christian, Martinsson, Andreas, Boekholdt, S Matthijs, Capoulade, Romain, Le Tourneau, Thierry, Messika-Zeitoun, David, Engert, James C., Wareham, Nicholas J., Clavel, Marie-Annick, Pibarot, Philippe, Smith, J Gustav, Schott, Jean Jacques, Mathieu, Patrick, Bossé, Yohan, Thanassoulis, George, and Arsenault, Benoit J.

Subjects

AORTIC stenosis, PHOSPHOLIPASE A2, GENETICS, CORONARY disease, HEART valve diseases, FAMILIAL hypercholesterolemia, BIOCHEMISTRY, RESEARCH, META-analysis, RESEARCH methodology, GENETIC polymorphisms, CASE-control method, MEDICAL cooperation, EVALUATION research, PHENOMENOLOGY, RISK assessment, COMPARATIVE studies, CALCINOSIS, DISEASE susceptibility, RESEARCH funding, ESTERASES, GENETIC techniques, AORTIC valve, PHENOTYPES

Abstract

Background: Lipoprotein-associated phospholipase A2 (Lp-PLA2) activity has been shown to predict calcific aortic valve stenosis (CAVS) outcomes. Our objective was to test the association between plasma Lp-PLA2 activity and genetically elevated Lp-PLA2 mass/activity with CAVS in humans.Methods and Results: Lp-PLA2 activity was measured in 890 patients undergoing cardiac surgery, including 476 patients undergoing aortic valve replacement for CAVS and 414 control patients undergoing coronary artery bypass grafting. After multivariable adjustment, Lp-PLA2 activity was positively associated with the presence of CAVS (OR=1.21 (95% CI 1.04 to 1.41) per SD increment). We selected four single nucleotide polymorphisms (SNPs) at the PLA2G7 locus associated with either Lp-PLA2 mass or activity (rs7756935, rs1421368, rs1805017 and rs4498351). Genetic association studies were performed in eight cohorts: Quebec-CAVS (1009 cases/1017 controls), UK Biobank (1350 cases/349 043 controls), European Prospective Investigation into Cancer and Nutrition-Norfolk (504 cases/20 307 controls), Genetic Epidemiology Research on Aging (3469 cases/51 723 controls), Malmö Diet and Cancer Study (682 cases/5963 controls) and three French cohorts (3123 cases/6532 controls), totalling 10 137 CAVS cases and 434 585 controls. A fixed-effect meta-analysis using the inverse-variance weighted method revealed that none of the four SNPs was associated with CAVS (OR=0.99 (95% CI 0.96 to 1.02, p=0.55) for rs7756935, 0.97 (95% CI 0.93 to 1.01, p=0.11) for rs1421368, 1.00 (95% CI 1.00 to 1.01, p=0.29) for rs1805017, and 1.00 (95% CI 0.97 to 1.04, p=0.87) for rs4498351).Conclusions: Higher Lp-PLA2 activity is significantly associated with the presence of CAVS and might represent a biomarker of CAVS in patients with heart disease. Results of our genetic association study suggest that Lp-PLA2 is however unlikely to represent a causal risk factor or therapeutic target for CAVS. [ABSTRACT FROM AUTHOR]

Published

2020

13. eDiVA—Classification and prioritization of pathogenic variants for clinical diagnostics.

Author

Bosio, Mattia, Drechsel, Oliver, Rahman, Rubayte, Muyas, Francesc, Rabionet, Raquel, Bezdan, Daniela, Domenech Salgado, Laura, Hor, Hyun, Schott, Jean‐Jacques, Munell, Francina, Colobran, Roger, Macaya, Alfons, Estivill, Xavier, and Ossowski, Stephan

Abstract

Mendelian diseases have shown to be an and efficient model for connecting genotypes to phenotypes and for elucidating the function of genes. Whole‐exome sequencing (WES) accelerated the study of rare Mendelian diseases in families, allowing for directly pinpointing rare causal mutations in genic regions without the need for linkage analysis. However, the low diagnostic rates of 20–30% reported for multiple WES disease studies point to the need for improved variant pathogenicity classification and causal variant prioritization methods. Here, we present the exome Disease Variant Analysis (eDiVA; http://ediva.crg.eu), an automated computational framework for identification of causal genetic variants (coding/splicing single‐nucleotide variants and small insertions and deletions) for rare diseases using WES of families or parent–child trios. eDiVA combines next‐generation sequencing data analysis, comprehensive functional annotation, and causal variant prioritization optimized for familial genetic disease studies. eDiVA features a machine learning‐based variant pathogenicity predictor combining various genomic and evolutionary signatures. Clinical information, such as disease phenotype or mode of inheritance, is incorporated to improve the precision of the prioritization algorithm. Benchmarking against state‐of‐the‐art competitors demonstrates that eDiVA consistently performed as a good or better than existing approach in terms of detection rate and precision. Moreover, we applied eDiVA to several familial disease cases to demonstrate its clinical applicability. [ABSTRACT FROM AUTHOR]

Published

2019

14. Mental stress test: a rapid, simple, and efficient test to unmask long QT syndrome.

Author

Etienne, Pauline, Huchet, François, Gaborit, Nathalie, Barc, Julien, Thollet, Aurélie, Kyndt, Florence, Guyomarch, Béatrice, Marec, Hervé Le, Charpentier, Flavien, Schott, Jean-Jacques, Le Marec, Hervé, Redon, Richard, Probst, Vincent, and Gourraud, Jean-Baptiste

Abstract

Aims: QT prolongation during mental stress test (MST) has been associated with familial idiopathic ventricular fibrillation. In long QT syndrome (LQTS), up to 30% of mutation carriers have normal QT duration. Our aim was to assess the QT response during MST, and its accuracy in the diagnosis of concealed LQTS.Methods and results: All patients who are carrier of a KCNQ1 or KCNH2 mutations without QT prolongation were enrolled. A control group was constituted of patients with negative exercise and epinephrine tests. Electrocardiogram were recorded at rest and at the maximum heart rate during MST and reviewed by two physicians. Among the 70 patients enrolled (median age 41±2.1 years, 46% male), 36 were mutation carrier for LQTS (20 KCNQ1 and 16 KCNH2), and 34 were controls. KCNQ1 and KCNH2 mutation carriers presented a longer QT interval at baseline [405(389; 416) and 421 (394; 434) ms, respectively] compared with the controls [361(338; 375)ms; P < 0.0001]. QT duration during MST varied by 9 (4; 18) ms in KCNQ1, 3 (-6; 16) ms in KCNH2, and by -22 (-29; -17) ms in controls (P < 0.0001). These QT variations were independent of heart rate (P < 0.3751). Receiver operating characteristic curve analysis identified a cut-off value of QT variation superior to -11 ms as best predictor of LQTS. It provided 97% sensitivity and 97% specificity of QT prolongation in the diagnosis of LQTS.Conclusion: We identified a paradoxical response of the QT interval during MST in LQTS. Easy to assess, MST may be efficient to unmask concealed LQTS in patients at risk of this pathology. [ABSTRACT FROM AUTHOR]

Published

2018

15. SCN5A mutations in 442 neonates and children: genotype–phenotype correlation and identification of higher-risk subgroups.

Author

Baruteau, Alban-Elouen, Kyndt, Florence, Behr, Elijah R, Vink, Arja S, Lachaud, Matthias, Joong, Anna, Schott, Jean-Jacques, Horie, Minoru, Denjoy, Isabelle, and Crotti, Lia

Abstract

Aims To clarify the clinical characteristics and outcomes of children with SCN5A -mediated disease and to improve their risk stratification. Methods and results A multicentre, international, retrospective cohort study was conducted in 25 tertiary hospitals in 13 countries between 1990 and 2015. All patients ≤16 years of age diagnosed with a genetically confirmed SCN5A mutation were included in the analysis. There was no restriction made based on their clinical diagnosis. A total of 442 children {55.7% boys, 40.3% probands, median age: 8.0 [interquartile range (IQR) 9.5] years} from 350 families were included; 67.9% were asymptomatic at diagnosis. Four main phenotypes were identified: isolated progressive cardiac conduction disorders (25.6%), overlap phenotype (15.6%), isolated long QT syndrome type 3 (10.6%), and isolated Brugada syndrome type 1 (1.8%); 44.3% had a negative electrocardiogram phenotype. During a median follow-up of 5.9 (IQR 5.9) years, 272 cardiac events (CEs) occurred in 139 (31.5%) patients. Patients whose mutation localized in the C-terminus had a lower risk. Compound genotype, both gain- and loss-of-function SCN5A mutation, age ≤1 year at diagnosis in probands and age ≤1 year at diagnosis in non-probands were independent predictors of CE. Conclusion In this large paediatric cohort of SCN5A mutation-positive subjects, cardiac conduction disorders were the most prevalent phenotype; CEs occurred in about one-third of genotype-positive children, and several independent risk factors were identified, including age ≤1 year at diagnosis, compound mutation, and mutation with both gain- and loss-of-function. View large Download slide View large Download slide [ABSTRACT FROM AUTHOR]

Published

2018

16. Genetics of syndromic and non-syndromic mitral valve prolapse.

Author

Le Tourneau, Thierry, Mérot, Jean, Rimbert, Antoine, Le Scouarnec, Solena, Probst, Vincent, Le Marec, Hervé, Levine, Robert A., and Schott, Jean-Jacques

Subjects

MITRAL valve prolapse, MARFAN syndrome, LEFT heart ventricle, HEART valve diseases, CYTOSKELETON, DIAGNOSIS, ANIMALS, DISEASE susceptibility, MITRAL valve, GENETIC mutation, PROGNOSIS, RESEARCH funding, SYNDROMES, PHENOTYPES, GENETIC markers, SEQUENCE analysis

Abstract

Mitral valve prolapse (MVP) is a common condition that affects 2%-3% of the general population. MVP is thought to include syndromic forms such as Marfan syndrome and non-syndromic MVP, which is the most frequent form. Myxomatous degeneration and fibroelastic deficiency (FED) are regarded as two different forms of non-syndromic MVP. While FED is still considered a degenerative disease associated with ageing, frequent familial clustering has been demonstrated for myxomatous MVP. Familial and genetic studies led to the recognition of reduced penetrance and large phenotypic variability, and to the identification of prodromal or atypical forms as a part of the complex spectrum of the disease. Whereas autosomal dominant mode is the common inheritance pattern, an X linked form of non-syndromic MVP was recognised initially, related to Filamin-A gene, encoding for a cytoskeleton protein involved in mechanotransduction. This identification allowed a comprehensive description of a new subtype of MVP with a unique association of leaflet prolapse and paradoxical restricted motion in diastole. In autosomal dominant forms, three loci have been mapped to chromosomes 16p11-p12, 11p15.4 and 13q31-32. Although deciphering the underlying genetic defects is still a work in progress, DCHS1 mutations have been identified (11p15.4) in typical myxomatous disease, highlighting new molecular pathways and pathophysiological mechanisms leading to the development of MVP. Finally, a large international genome-wide association study demonstrated the implication of frequent variants in MVP development and opened new directions for future research. Hence, this review focuses on phenotypic, genetic and pathophysiological aspects of MVP. [ABSTRACT FROM AUTHOR]

Published

2018

17. Clinical Yield of Familial Screening After Sudden Death in Young Subjects: The French Experience.

Author

Quenin, Pauline, Kyndt, Florence, Mabo, Philippe, Mansourati, Jacques, Babuty, Dominique, Thollet, Aurélie, Guyomarch, Béatrice, Redon, Richard, Barc, Julien, Schott, Jean-Jacques, Sacher, Frederic, Probst, Vincent, and Gourraud, Jean Baptiste

Published

2017

18. DoEstRare: A statistical test to identify local enrichments in rare genomic variants associated with disease.

Author

Persyn, Elodie, Karakachoff, Matilde, Le Scouarnec, Solena, Le Clézio, Camille, Campion, Dominique, Consortium, French Exome, Schott, Jean-Jacques, Redon, Richard, Bellanger, Lise, and Dina, Christian

Subjects

HUMAN genetic variation, NUCLEOTIDE sequencing, GENE clusters, AMINO acid sequence, STATISTICAL research, COMPUTER simulation

Abstract

Next-generation sequencing technologies made it possible to assay the effect of rare variants on complex diseases. As an extension of the “common disease-common variant” paradigm, rare variant studies are necessary to get a more complete insight into the genetic architecture of human traits. Association studies of these rare variations show new challenges in terms of statistical analysis. Due to their low frequency, rare variants must be tested by groups. This approach is then hindered by the fact that an unknown proportion of the variants could be neutral. The risk level of a rare variation may be determined by its impact but also by its position in the protein sequence. More generally, the molecular mechanisms underlying the disease architecture may involve specific protein domains or inter-genic regulatory regions. While a large variety of methods are optimizing functionality weights for each single marker, few evaluate variant position differences between cases and controls. Here, we propose a test called DoEstRare, which aims to simultaneously detect clusters of disease risk variants and global allele frequency differences in genomic regions. This test estimates, for cases and controls, variant position densities in the genetic region by a kernel method, weighted by a function of allele frequencies. We compared DoEstRare with previously published strategies through simulation studies as well as re-analysis of real datasets. Based on simulation under various scenarios, DoEstRare was the sole to consistently show highest performance, in terms of type I error and power both when variants were clustered or not. DoEstRare was also applied to Brugada syndrome and early-onset Alzheimer’s disease data and provided complementary results to other existing tests. DoEstRare, by integrating variant position information, gives new opportunities to explain disease susceptibility. DoEstRare is implemented in a user-friendly R package. [ABSTRACT FROM AUTHOR]

Published

2017

19. TRPM4 non-selective cation channel variants in long QT syndrome.

Author

Hof, Thomas, Hui Liu, Sallé, Laurent, Schott, Jean-Jacques, Ducreux, Corinne, Millat, Gilles, Chevalier, Philippe, Probst, Vincent, Guinamard, Romain, and Bouvagnet, Patrice

Subjects

LONG QT syndrome, GENETIC disorders, SYNCOPE, SUDDEN death -- Risk factors, ELECTROPHYSIOLOGY, DISEASE risk factors

Abstract

Background: Long QT syndrome (LQTS) is an inherited arrhythmic disorder characterized by prolongation of the QT interval, a risk of syncope, and sudden death. There are already a number of causal genes in LQTS, but not all LQTS patients have an identified mutation, which suggests LQTS unknown genes. Methods: A cohort of 178 LQTS patients, with no mutations in the 3 major LQTS genes (KCNQ1, KCNH2, and SCN5A), was screened for mutations in the transient potential melastatin 4 gene (TRPM4). Results: Four TRPM4 variants (2.2% of the cohort) were found to change highly conserved amino-acids and were either very rare or absent from control populations. Therefore, these four TRPM4 variants were predicted to be disease causing. Furthermore, no mutations were found in the DNA of these TRPM4 variant carriers in any of the 13 major long QT syndrome genes. Two of these variants were further studied by electrophysiology (p.Val441Met and p.Arg499Pro). Both variants showed a classical TRPM4 outward rectifying current, but the current was reduced by 61 and 90% respectively, compared to wild type TRPM4 current. Conclusions: This study supports the view that TRPM4 could account for a small percentage of LQTS patients. TRPM4 contribution to the QT interval might be multifactorial by modulating whole cell current but also, as shown in Trpm4-/-mice, by modulating cardiomyocyte proliferation. TRPM4 enlarges the subgroup of LQT genes (KCNJ2 in Andersen syndrome and CACNA1C in Timothy syndrome) known to increase the QT interval through a more complex pleiotropic effect than merely action potential alteration. [ABSTRACT FROM AUTHOR]

Published

2017

20. Familial bicuspid aortic valve disease: should we look more closely at the valve?

Author

Capoulade, Romain, Schott, Jean-Jacques, and Le Tourneau, Thierry

Subjects

AORTIC valve diseases, MITRAL valve, VALVES, AORTIC stenosis, HEART valve diseases, AORTIC valve abnormalities, AORTIC diseases, COMPARATIVE studies, RESEARCH methodology, MEDICAL cooperation, PATHOLOGICAL physiology, RESEARCH, EVALUATION research

Published

2019

21. Variants in the SCN5A Promoter Associated With Various Arrhythmia Phenotypes.

Author

Yagihara, Nobue, Watanabe, Hiroshi, Barnett, Phil, Duboscq‐Bidot, Laetitia, Thomas, Atack C., Yang, Ping, Ohno, Seiko, Hasegawa, Kanae, Kuwano, Ryozo, Chatel, Stéphanie, Redon, Richard, Schott, Jean‐Jacques, Probst, Vincent, Koopmann, Tamara T., Bezzina, Connie R., Wilde, Arthur A. M., Nakano, Yukiko, Aiba, Takeshi, Miyamoto, Yoshihiro, and Kamakura, Shiro

Published

2016

22. Variants of Transient Receptor Potential Melastatin Member 4 in Childhood Atrioventricular Block.

Author

Syam, Ninda, Chatel, Stéphanie, Ozhathil, Lijo Cherian, Sottas, Valentin, Rougier, Jean‐Sébastien, Baruteau, Alban, Baron, Estelle, Amarouch, Mohamed‐Yassine, Daumy, Xavier, Probst, Vincent, Schott, Jean‐Jacques, and Abriel, Hugues

Published

2016

23. Search for Rare Copy-Number Variants in Congenital Heart Defects Identifies Novel Candidate Genes and a Potential Role for FOXC1 in Patients With Coarctation of the Aorta.

Author

Sanchez-Castro, Marta, Eldjouzi, Hadja, Charpentier, Eric, Busson, Pierre-Francois, Hauet, Quentin, Lindenbaum, Pierre, Delasalle-Guyomarch, Beatrice, Baudry, Adrien, Pichon, Olivier, Pascal, Cecile, Lefort, Bruno, Bajolle, Fanny, Pezard, Philippe, Schott, Jean-Jacques, Dina, Christian, Redon, Richard, Gournay, Veronique, Bonnet, Damien, and Le Caignec, Cedric

Published

2016

24. Analysis for Genetic Modifiers of Disease Severity in Patients With Long-QT Syndrome Type 2.

Author

Postema, Pieter G., Koopmann, Tamara T., Kolder, Iris C. R. M., Bezzina, Connie R., Wilde, Arthur A. M., Barc, Julien, Hofman, Nynke, Pfeufer, Arne, Lichtner, Peter, Meitinger, Thomas, Myerburg, Robert J., Bishopric, Nanette H., Roden, Dan M., Tanck, Michael W. T., Schott, Jean-Jacques, Sinner, Moritz F., Beckmann, Britt M., Kääb, Stefan, Zumhagen, Sven, and Husemann, Anja

Published

2015

25. Fine-scale human genetic structure in Western France.

Author

Karakachoff, Matilde, Duforet-Frebourg, Nicolas, Simonet, Floriane, Le Scouarnec, Solena, Pellen, Nadine, Lecointe, Simon, Charpentier, Eric, Gros, Françoise, Cauchi, Stéphane, Froguel, Philippe, Copin, Nane, Le Tourneau, Thierry, Probst, Vincent, Le Marec, Hervé, Molinaro, Sabrina, Balkau, Beverley, Redon, Richard, Schott, Jean-Jacques, Blum, Michael GB, and Dina, Christian

Subjects

HUMAN genetics, HUMAN biology, LACTOSE intolerance, BALANCE disorders, GENOMICS

Abstract

The difficulties arising from association analysis with rare variants underline the importance of suitable reference population cohorts, which integrate detailed spatial information. We analyzed a sample of 1684 individuals from Western France, who were genotyped at genome-wide level, from two cohorts D.E.S.I.R and CavsGen. We found that fine-scale population structure occurs at the scale of Western France, with distinct admixture proportions for individuals originating from the Brittany Region and the Vendée Department. Genetic differentiation increases with distance at a high rate in these two parts of Northwestern France and linkage disequilibrium is higher in Brittany suggesting a lower effective population size. When looking for genomic regions informative about Breton origin, we found two prominent associated regions that include the lactase region and the HLA complex. For both the lactase and the HLA regions, there is a low differentiation between Bretons and Irish, and this is also found at the genome-wide level. At a more refined scale, and within the Pays de la Loire Region, we also found evidence of fine-scale population structure, although principal component analysis showed that individuals from different departments cannot be confidently discriminated. Because of the evidence for fine-scale genetic structure in Western France, we anticipate that rare and geographically localized variants will be identified in future full-sequence analyses. [ABSTRACT FROM AUTHOR]

Published

2015

26. Progressive Cardiac Conduction Disease.

Author

Schott, Jean-Jacques, Charpentier, Flavien, and Le Marec, Hervé

Published

2013

27. Hereditary Cardiac Conduction Diseases.

Author

Schott, Jean-Jacques

Abstract

Cardiac conduction defects (CCD) are a group of serious and potentially life-threatening disorders. CCD belongs to a group of pathologies with an alteration of cardiac conduction through the atrioventricular (AV) node, the His-Purkinje system with right or left bundle branch block, and widening of QRS complexes. CCD can lead to complete atrioventricular block (AV block) and cause syncope and sudden death. [ABSTRACT FROM AUTHOR]

Published

2011

28. Modelling the Earth΄s Magnetic Field from Global to Regional Scales.

Author

Schott, Jean-Jacques and Thébault, Erwan

Abstract

In the recent years, a large amount of magnetic vector and scalar data have been measured or made available to scientists. They cover different ranges of altitudes from ground to satellite levels and have high horizontal densities over some geographical areas. Processing these potential field data may require alternatives to the widely used Spherical Harmonics. During the past decades, new techniques have been proposed to model regionally the magnetic measurements. They complement the set of older approaches that were revived and sometimes revised in the meantime. The amount of available techniques is intimidating and one often wonders which method is the most appropriate for what purpose. In this paper, we review several modelling strategies. Starting from the Spherical Harmonics, we discuss methods with global support (wavelets, multi-scale, Slepian functions,…) and then bring the focus on regional methods with local support (Rectangular Harmonic Analysis, Cylindrical Harmonic Analysis, Spherical Caps,…). We briefly examine the theoretical aspects and properties of each approach. We compare them with the help of a unique set of perfect synthetic data that mimic an ideal spatial distribution at a fixed surface. This helps us to better emphasize the theoretical characteristics of each approach and suggest, when relevant, improvements that would be useful for future practical applications. [ABSTRACT FROM AUTHOR]

Published

2011

29. Complex Brugada syndrome inheritance in a family harbouring compound SCN5A and CACNA1C mutations.

Author

Béziau, Delphine M., Barc, Julien, O’Hara, Thomas, Le Gloan, Laurianne, Amarouch, Mohamed Yassine, Solnon, Aude, Pavin, Dominique, Lecointe, Simon, Bouillet, Patricia, Gourraud, Jean-Baptiste, Guicheney, Pascale, Denjoy, Isabelle, Redon, Richard, Mabo, Philippe, le Marec, Hervé, Loussouarn, Gildas, Kyndt, Florence, Schott, Jean-Jacques, Probst, Vincent, and Baró, Isabelle

Abstract

Brugada syndrome (BrS) is characterized by ST-segment elevation in the right precordial leads and is associated with increased risk of sudden cardiac death. We have recently reported families with BrS and SCN5A mutations where some affected members do not carry the familial mutation. We evaluated the involvement of additional genetic determinants for BrS in an affected family. We identified three distinct gene variants within a family presenting BrS (5 individuals), cardiac conduction defects (CCD, 3 individuals) and shortened QT interval (4 individuals). The first mutation is nonsense, p.Q1695*, lying within the SCN5A gene, which encodes for NaV1.5, the α-subunit of the cardiac Na+ channel. The second mutation is missense, p.N300D, and alters the CACNA1C gene, which encodes the α-subunit CaV1.2 of the L-type cardiac Ca2+ channel. The SCN5A mutation strictly segregates with CCD. Four out of the 5 BrS patients carry the CACNA1C variant, and three of them present shortened QT interval. One of the BrS patients carries none of these mutations but a rare variant located in the ABCC9 gene as well as his asymptomatic mother. Patch-clamp studies identified a loss-of-function of the mutated CaV1.2 channel. Western-blot experiments showed a global expression defect while increased mobility of CaV1.2 channels on cell surface was revealed by FRAP experiments. Finally, computer simulations of the two mutations recapitulated patient phenotypes. We report a rare CACNA1C mutation as causing BrS and/or shortened QT interval in a family also carrying a SCN5A stop mutation, but which does not segregate with BrS. This study underlies the complexity of BrS inheritance and its pre-symptomatic genetic screening interpretation. [ABSTRACT FROM AUTHOR]

Published

2014

30. Molecular Genetics and Functional Anomalies in a Series of 248 Brugada Cases with 11 Mutations in the TRPM4 Channel.

Author

Hui Liu, Chatel, Stéphanie, Simard, Christophe, Syam, Ninda, Salle, Laurent, Probst, Vincent, Morel, Julie, Millat, Gilles, Lopez, Michel, Abriel, Hugues, Schott, Jean-Jacques, Guinamard, Romain, and Bouvagnet, Patrice

Subjects

BRUGADA syndrome, DNA analysis, GENETIC mutation, HEART conduction system, GENE expression, MEMBRANE potential

Abstract

Brugada syndrome (BrS) is a condition defined by ST-segment alteration in right precordial leads and a risk of sudden death. Because BrS is often associated with right bundle branch block and the TRPM4 gene is involved in conduction blocks, we screened TRPM4 for anomalies in BrS cases. The DNA of 248 BrS cases with no SCN5A mutations were screened for TRPM4 mutations. Among this cohort, 20 patients had 11 TRPM4 mutations. Two mutations were previously associated with cardiac conduction blocks and 9 were new mutations (5 absent from ~14'000 control alleles and 4 statistically more prevalent in this BrS cohort than in control alleles). In addition to Brugada, three patients had a bifascicular block and 2 had a complete right bundle branch block. Functional and biochemical studies of 4 selected mutants revealed that these mutations resulted in either a decreased expression (p.Pro779Arg and p.Lys914X) or an increased expression (p.Thr873Ile and p.Leu1075Pro) of TRPM4 channel. TRPM4 mutations account for about 6% of BrS. Consequences of these mutations are diverse on channel electrophysiological and cellular expression. Because of its effect on the resting membrane potential, reduction or increase of TRPM4 channel function may both reduce the availability of sodium channel and thus lead to BrS. [ABSTRACT FROM AUTHOR]

Published

2013

31. Developmental basis for filamin-A-associated myxomatous mitral valve disease.

Author

Sauls, Kimberly, de Vlaming, Annemarieke, Harris, Brett S., Williams, Katherine, Wessels, Andy, Levine, Robert A., Slaugenhaupt, Susan A., Goodwin, Richard L., Pavone, Luigi Michele, Merot, Jean, Schott, Jean-Jacques, Le Tourneau, Thierry, Dix, Thomas, Jesinkey, Sean, Feng, Yuanyi, Walsh, Christopher, Zhou, Bin, Baldwin, Scott, Markwald, Roger R., and Norris, Russell A.

Subjects

FILAMINS, MITRAL valve diseases, TISSUES, PATHOLOGY, DISEASE progression, TRANSGLUTAMINASES, SEROTONIN

Abstract

Aims We hypothesized that the structure and function of the mature valves is largely dependent upon how these tissues are built during development, and defects in how the valves are built can lead to the pathological progression of a disease phenotype. Thus, we sought to uncover potential developmental origins and mechanistic underpinnings causal to myxomatous mitral valve disease. We focus on how filamin-A, a cytoskeletal binding protein with strong links to human myxomatous valve disease, can function as a regulatory interface to control proper mitral valve development. Methods and results Filamin-A-deficient mice exhibit abnormally enlarged mitral valves during foetal life, which progresses to a myxomatous phenotype by 2 months of age. Through expression studies, in silico modelling, 3D morphometry, biochemical studies, and 3D matrix assays, we demonstrate that the inception of the valve disease occurs during foetal life and can be attributed, in part, to a deficiency of interstitial cells to efficiently organize the extracellular matrix (ECM). This ECM organization during foetal valve gestation is due, in part, to molecular interactions between filamin-A, serotonin, and the cross-linking enzyme, transglutaminase-2 (TG2). Pharmacological and genetic perturbations that inhibit serotonin-TG2-filamin-A interactions lead to impaired ECM remodelling and engender progression to a myxomatous valve phenotype. Conclusions These findings illustrate a molecular mechanism by which valve interstitial cells, through a serotonin, TG, and filamin-A pathway, regulate matrix organization during foetal valve development. Additionally, these data indicate that disrupting key regulatory interactions during valve development can set the stage for the generation of postnatal myxomatous valve disease. [ABSTRACT FROM AUTHOR]

Published

2012

32. Parental Electrocardiographic Screening Identifies a High Degree of Inheritance for Congenital and Childhood Nonimmune Isolated Atrioventricular Block.

Author

Baruteau, Alban-Elouen, Behaghel, Albin, Fouchard, Swanny, Mabo, Philippe, Schott, Jean-Jacques, Dina, Christian, Chatel, Stéphanie, Villain, Elisabeth, Thambo, Jean-Benoit, Marçon, François, Gournay, Véronique, Rouault, Francis, Chantepie, Alain, Guillaumont, Sophie, Godart, François, Martins, Raphaël P., Delasalle, Béatrice, Bonnet, Caroline, Fraisse, Alain, and Schleich, Jean-Marc

Published

2012

33. Identification of a strong genetic background for progressive cardiac conduction defect by epidemiological approach.

Author

Gourraud, Jean Baptiste, Kyndt, Florence, Fouchard, Swanny, Rendu, Eric, Jaafar, Philippe, Gully, Claude, Gacem, Karim, Dupuis, Jean Marc, Longueville, Aurelie, Baron, Estelle, Karakachoff, Matilde, Cebron, Jean Pierre, Chatel, Stephanie, Schott, Jean Jacques, Le Marec, Hervé, and Probst, Vincent

Subjects

HEART disease genetics, HEART conduction system, EPIDEMIOLOGY, HEART fibrosis, HIS bundle, PHENOTYPES, CARDIAC pacemakers

Abstract

Introduction Progressive cardiac conduction defect (PCCD) is a frequent disease attributed to degeneration and fibrosis of the His bundle. Over the past years, gene defects have been identified demonstrating that PCCD could be a genetic disease. The aim of this study was to show a familial aggregation for PCCD using a genetic epidemiological approach to improve in fine genetic knowledge of the transmission of the disease. Methods and results Using the French social security number, the authors have been able to determine the city of birth of the 6667 patients implanted with a pacemaker (PM) for PCCD between 1995 and 2005 in the western part of France. The authors then mapped the frequency of PM implantations for PCCD. A large heterogeneity of the frequency of the disease has been observed, with a frequency of 0.21% in the major city (Nantes) ranging up to 2.28% in specific parishes. Familial studies performed in the parishes with the highest frequency of the disease allowed the authors to identify five large families with PCCD. Clinical investigations demonstrated phenotype heterogeneity between families. Three patterns have been differentiated. Conclusions This study demonstrates a disparate geographical repartition of the frequency of PM implantation in the area of the authors at least in part related to a hereditary factor. The identification of five large families affected by PCCD using epidemiological approach underlines the existence of a major genetic background in PCCD. [ABSTRACT FROM AUTHOR]

Published

2012

34. Characteristics and long-term outcome of non-immune isolated atrioventricular block diagnosed in utero or early childhood: a multicentre study.

Author

Baruteau, Alban-Elouen, Fouchard, Swanny, Behaghel, Albin, Mabo, Philippe, Villain, Elisabeth, Thambo, Jean-Benoit, Marçon, François, Gournay, Véronique, Rouault, Francis, Chantepie, Alain, Guillaumont, Sophie, Godart, François, Bonnet, Caroline, Fraisse, Alain, Schleich, Jean-Marc, Lusson, Jean-René, Dulac, Yves, Leclercq, Christophe, Daubert, Jean-Claude, and Schott, Jean-Jacques

Abstract

Aims The natural history of congenital or childhood non-immune, isolated atrioventricular (AV) block is poorly defined. Methods and results We retrospectively studied 141 children with isolated, non-immune AV block diagnosed in utero, or up to 15 years of age, at 13 French medical centres, between 1980 and 2009. Patients with structural heart disease or maternal antibodies were excluded. Atrioventricular block was asymptomatic in 119 (84.4%) and complete in 100 (70.9%) patients. There was progression to complete AV block in 29/41 (70.7%) patients with incomplete AV block over 2.8 ± 3.4 years (1–155 months), but all patients with incomplete AV block may not have been included in the study. Narrow QRS complex was present in 18 of 26 patients (69.2%) with congenital, and 106 of 115 (92.2%) with childhood AV block. Pacemakers were implanted in 112 children (79.4%), during the first year of life in 18 (16.1%) and before 10 years of age in 90 (80.4%). The mean interval between diagnosis of AV block and pacemaker implants was 2.6 ± 3.9 years (0–300 months). The pacing indication was prophylactic in 70 children (62.5%). During a mean follow-up of 11.6 ± 6.7 years (1–32 years), no patient died or developed dilated cardiomyopathy (DCM). The long-term follow-up was uncomplicated in 127 children (90.1%). Conclusion In this large multicentre study, the long-term outcome of congenital or childhood non-immune, isolated AV block was favourable, regardless of the patient's age at the time of diagnosis. No patient died or developed DCM, and pacemaker-related complications were few. [ABSTRACT FROM PUBLISHER]

Published

2012

35. A Large Candidate Gene Survey Identifies the KCNE1 D85N Polymorphism as a Possible Modulator of Drug-Induced Torsades de Pointes.

Author

Kääb, Stefan, Crawford, Dana C., Sinner, Moritz F., Behr, Elijah R., Kannankeril, Prince J., Wilde, Arthur A. M., Bezzina, Connie R., Schulze-Bahr, Eric, Guicheney, Pascale, Bishopric, Nanette H., Myerburg, Robert J., Schott, Jean-Jacques, Pfeufer, Arne, Beckmann, Britt-Maria, Marten, Eimo, Zhang, Taifang, Stallmeyer, Birgit, Zumhagen, Sven, Denjoy, Isabelle, and Bardai, Abdennasser

Published

2012

36. On the computation of the electrical potential inside a horizontally-layered half-space.

Author

Maineult, Alexis and Schott, Jean-Jacques

Subjects

SURFACES (Physics), NUMERICAL analysis, POTENTIAL theory (Physics), INTEGRALS, KERNEL functions, RECURSION theory

Abstract

ABSTRACT A new formulation is proposed for the electrical potential developed inside a horizontally-layered half-space for a direct current point-source at the surface. The recursion formula for the kernel coefficient in the potential integral is simpler than the generally used two-coefficient recursion. The numerical difficulties that may occur during the computation of the integrals and near the source axis are examined and solutions are proposed. The set of equations permits a stable and accurate computation of the tabular potential everywhere in the medium. [ABSTRACT FROM AUTHOR]

Published

2012

37. Filamin-A-Related Myxomatous Mitral Valve Dystrophy: Genetic, Echocardiographic and Functional Aspects.

Author

Lardeux, Aurélie, Kyndt, Florence, Lecointe, Simon, Marec, Hervé, Merot, Jean, Schott, Jean-Jacques, Le Tourneau, Thierry, and Probst, Vincent

Abstract

Myxomatous dystrophy of the cardiac valves is a heterogeneous group of disorders, including syndromic diseases such as Marfan syndrome and isolated valvular diseases. Mitral valve prolapse, the most common form of this disease, is presumed to affect approximately 2% to 3% of the population and remains one of the most common causes of valvular surgery. During the past years, important effort has been made to better understand the pathophysiological basis of mitral valve prolapse. Autosomal-dominant transmission is the usual inheritance with reduced penetrance and variable expressivity. Three loci have been mapped to chromosomes 16p11-p12, 11p15.4 and 13q31-32, but the underlying genetic defects are not currently known. An X-linked recessive form has been originally described by Monteleone and Fagan in 1969. Starting from one large French family and three smaller other families in which MVP was transmitted with an X-linked pattern, we have been able to identify three filamin A mutations p.Gly288Arg and p.Val711Asp and a 1,944-bp genomic deletion coding for exons 16 to 19. In this review, we describe the genetic, echocardiographic and functional aspects of the filamin-A-related myxomatous mitral valve dystrophy. [ABSTRACT FROM AUTHOR]

Published

2011

38. Defects in Ankyrin-Based Membrane Protein Targeting Pathways Underlie Atrial Fibrillation.

Author

Cunha, Shane R., Hund, Thomas J., Hashemi, Seyed, Voigt, Niels, Na Li, Wright, Patrick, Koval, Olha, Jingdong Li, Gudmundsson, Hjalti, Gumina, Richard J., Karck, Matthias, Schott, Jean-Jacques, Probst, Vincent, Le Marec, Herve, Anderson, Mark E., Dobrev, Dobromir, Wehrens, Xander H. T., and Mohier, Peter J.

Published

2011

39. MOG1.

Author

Kattygnarath, Darouna, Maugenre, Svetlana, Neyroud, Nathalie, Balse, Elise, Ichai, Carole, Denjoy, Isabelle, Dilanian, Gilles, Martins, Raphaël P., Fressart, Véronique, Berthet, Myriam, Schott, Jean Jacques, Leenhardt, Antoine, Probst, Vincent, Le Marec, Hervé, Hainque, Bernard, Coulombe, Alain, Hatem, Stéphane N., and Guicheney, Pascale

Published

2011

40. Variable Nav1.5 Protein Expression from the Wild-Type Allele Correlates with the Penetrance of Cardiac Conduction Disease in the Scn5a+/-- Mouse Model.

Author

Leoni, Anne-Laure, Gavillet, Bruno, Rougier, Jean-Sébastien, Marionneau, Céline, Probst, Vincent, Scouarnec, Solena Le, Schott, Jean-Jacques, Demolombe, Sophie, Bruneval, Patrick, Huang, Christopher L. H., Colledge, William H., Grace, Andrew A., Marec, HervéLe, Wilde, Arthur A., Mohler, Peter J., Escande, Denis, Abriel, Hugues, and Charpentier, Flavien

Subjects

BRUGADA syndrome, PROTEINS, LABORATORY mice, SYNDROMES, VENTRICULAR fibrillation, PHENOTYPES, HEART conduction system, TACHYCARDIA, VENTRICULAR tachycardia

Abstract

Background: Loss-of-function mutations in SCN5A, the gene encoding Nav1.5 NaP+ channel, are associated with inherited cardiac conduction defects and Brugada syndrome, which both exhibit variable phenotypic penetrance of conduction defects. We investigated the mechanisms of this heterogeneity in a mouse model with heterozygous targeted disruption of Scn5a (Scn5a+/- mice) and compared our results to those obtained in patients with loss-of-function mutations in SCN5A. Methodology/Principal Findings: Based on ECG, 10-week-old Scn5a+/- mice were divided into 2 subgroups, one displaying severe ventricular conduction defects (QRS interval>18 ms) and one a mild phenotype (QRS≤18 ms; QRS in wild-type littermates: 10-18 ms). Phenotypic difference persisted with aging. At 10 weeks, the Na+ channel blocker ajmaline prolonged QRS interval similarly in both groups of Scn5a+/- mice. In contrast, in old mice (>53 weeks), ajmaline effect was larger in the severely affected subgroup. These data matched the clinical observations on patients with SCN5A loss-of-function mutations with either severe or mild conduction defects. Ventricular tachycardia developed in 5/10 old severely affected Scn5a+/- mice but not in mildly affected ones. Correspondingly, symptomatic SCN5A-mutated Brugada patients had more severe conduction defects than asymptomatic patients. Old severely affected Scn5a+/-mice but not mildly affected ones showed extensive cardiac fibrosis. Mildly affected Scn5a+/- mice had similar Nav1.5 mRNA but higher Nav1.5 protein expression, and moderately larger INa current than severely affected Scn5a+/- mice. As a consequence, action potential upstroke velocity was more decreased in severely affected Scn5a+/- mice than in mildly affected ones. Conclusions: Scn5a+/- mice show similar phenotypic heterogeneity as SCN5A-mutated patients. In Scn5a+/- mice, phenotype severity correlates with wild-type Nav1.5 protein expression. [ABSTRACT FROM AUTHOR]

Published

2010

41. SCN5A Mutations and the Role of Genetic Background in the Pathophysiology of Brugada Syndrome.

Author

Probst, Vincent, Wilde, Arthur A. M., Barc, Julien, Sacher, Frederic, Babuty, Dominique, Mabo, Philippe, Mansourati, Jacques, Le Scouarnec, Solena, Kyndt, Florence, Le Caignec, Cedric, Guicheney, Pascale, Gouas, Laetitia, Albuisson, Juliette, Meregalli, Paola G., Le Marec, Hervé, Tan, Hanno L., and Schott, Jean-Jacques

Published

2009

42. Ventricular Fibrillation with Prominent Early Repolarization Associated with a Rare Variant of KCNJ8/KATP Channel.

Author

HAÏSSAGUERRE, MICHEL, CHATEL, STÉPHANIE, SACHER, FREDERIC, WEERASOORIYA, RUKSHEN, PROBST, VINCENT, LOUSSOUARN, GILDAS, HORLITZ, MARC, LIERSCH, RUEDIGE, SCHULZE‐BAHR, ERIC, WILDE, ARTHUR, KÄÄB, STEFAN, KOSTER, JOSEPH, RUDY, YORAM, MAREC, HERVÉ LE, and SCHOTT, JEAN JACQUES

Subjects

CASE studies, VENTRICULAR fibrillation, HUMAN genetic variation, ELECTROCARDIOGRAPHY, ISOPROTERENOL, QUINIDINE, NUCLEOTIDE sequence

Abstract

Background: Early repolarization in the inferolateral leads has been recently recognized as a frequent syndrome associated with idiopathic ventricular fibrillation (VF). We report the case of a patient presenting dramatic changes in the ECG in association with recurrent VF in whom a novel genetic variant has been identified. Case Report: This young female (14 years) was resuscitated in 2001 following an episode of sudden death due to VF. All examinations including coronary angiogram with ergonovine injection, MRI, and flecainide or isoproterenol infusion were normal. The patient had multiple (>100) recurrences of VF unresponsive to beta-blockers, lidocaine/mexiletine, verapamil, and amiodarone. Recurrences of VF were associated with massive accentuation of the early repolarization pattern at times mimicking acute myocardial ischemia. Coronary angiography during an episode with 1.2 mV J/ST elevation was normal. Isoproterenol infusion acutely suppressed electrical storms, while quinidine eliminated all recurrences of VF and restored a normal ECG over a follow-up of 65 months. Genomic DNA sequencing of KATP channel genes showed missense variant in exon 3 (NC_000012) of the KCNJ8 gene, a subunit of the KATP channel, conferring predisposition to dramatic repolarization changes and ventricular vulnerability. [ABSTRACT FROM AUTHOR]

Published

2009

43. Genetic mechanisms of mitral valve prolapse.

Author

Slaugenhaupt, Susan, Levine, Robert, Hagege, Albert, Jeunemaitre, Xavier, Marec, Hervé, Schott, Jean-Jacques, and Probst, Vincent

Abstract

Mitral valve prolapse (MVP) is a common cardiac disorder that exhibits a strong hereditary component. Defined as billowing of the mitral leaflets into the left atrium, it is the most common cause of isolated mitral regurgitation requiring surgical repair, and it can lead to congestive heart failure, endocarditis, atrial arrhythmias, and an increased risk of stroke and sudden death. Three-dimensional echocardiographic studies demonstrating the saddle shape of the mitral valve have increased the specificity of diagnosis and provided a strong phenotypic basis for genetic studies. MVP loci have been mapped to chromosomes 11, 13, and 16 by studying large families with multiple affected members, and mutations in the filamin A gene have been shown to cause familial cardiac valvular dystrophy, an X-linked form of MVP. Determination of the genetic basis of MVP is important because the disease often manifests clinically in the fifth or sixth decade of life through presentation as a severe cardiac event. Earlier intervention in genetically susceptible individuals could potentially arrest or prevent progression to a clinically severe stage. [ABSTRACT FROM AUTHOR]

Published

2008

44. Dysfunction in ankyrin-B-dependent ion channel and transporter targeting causes human sinus node disease.

Author

Le Scouarnec, Solena, Bhasin, Naina, Vieyres, Claude, Hund, Thomas J., Cunha, Shane R., Koval, Olha, Marionneau, Celine, Biyi Chen, Yuejin Wu, Demolombe, Sophie, Long-Sheng Song, Le Marec, Hervé, Probst, Vincent, Schott, Jean-Jacques, Anderson, Mark E., and Mohler, Peter J.

Subjects

ION channels, ARRHYTHMIA, SINOATRIAL node, BRADYCARDIA, CARDIOVASCULAR diseases, ACTIVE biological transport, DISEASES

Abstract

The identification of nearly a dozen ion channel genes involved in the genesis of human atrial and ventricular arrhythmias has been critical for the diagnosis and treatment of fatal cardiovascular diseases. In contrast, very little is known about the genetic and molecular mechanisms underlying human sinus node dysfunction (SND). Here, we report a genetic and molecular mechanism for human SND. We mapped two families with highly penetrant and severe SND to the human ANK2 (ankyrin-B/AnkB) locus. Mice heterozygous for AnkB phenocopy human SND displayed severe bradycardia and rate variability. AnkB is essential for normal membrane organization of sinoatrial node cell channels and trans- porters, and AnkB is required for physiological cardiac pacing. Finally, dysfunction in AnkB-based trafficking pathways causes abnormal sinoatrial node (SAN) electrical activity and SND. Together, our findings associate abnormal channel targeting with human SND and highlight the critical role of local membrane organization for sinoatrial node excitability. [ABSTRACT FROM AUTHOR]

Published

2008

45. 14-3-3 Is a Regulator of the Cardiac Voltage-Gated Sodium Channel Nav1.5.

Author

Allouis, Marie, Le Bouffant, Françoise, Wilders, Ronald, Péroz, David, Schott, Jean-Jacques, Noireaud, Jacques, Le Marec, Hervé, Mérot, Jean, Escande, Denis, and Baró, Isabelle

Published

2006

46. Progressive Cardiac Conduction Defect is the Prevailing Phenotype in Carriers of a Brugada Syndrome SCN5A Mutation.

Author

PROBST, VINCENT, ALLOUIS, MARIE, SACHER, FREDERIC, PATTIER, SABINE, BABUTY, DOMINIQUE, MABO, PHILIPE, MANSOURATI, JACQUES, VICTOR, JACQUES, NGUYEN, JEAN‐MICHEL, SCHOTT, JEAN‐JACQUES, BOISSEAU, PIERRE, ESCANDE, DENIS, and LE MAREC, HERVÉ

Subjects

BRUGADA syndrome, HEART conduction system, PHENOTYPES, GENETIC mutation, ARTIFICIAL implants, ELECTROCARDIOGRAPHY

Abstract

Introduction: Loss-of-function mutations in the SCN5A gene encoding the cardiac sodium channel are responsible for Brugada syndrome (BS) and also for progressive cardiac conduction disease (inherited Lenègre disease). In an attempt to clarify the frontier between these two entities, we have characterized cardiac conduction defect and its evolution with aging in a cohort of 78 patients carrying a SCN5A mutation linked to Brugada syndrome. Methods and Results: Families were included in the study if a SCN5A mutation was identified in a BS proband and if at least two family members were mutation carriers. Sixteen families met the study criteria, representing 78 carriers. Resting ECG showed a spontaneous BS ECG pattern in 28 of 78 (36%) gene carriers. Intraventricular conduction anomalies were identified in 59 of 78 gene carriers including complete (17) or incomplete (24) right bundle branch block, right bundle branch block plus hemiblock (6), left bundle branch block (1), hemiblock (1), and parietal block (10). PR and QRS duration were longer in the gene carrier cohort in comparison with their relatives carrying no mutation. Finally, in the gene carrier cohort conduction defect progressively aggravated with aging leading in five occasions to pacemaker implantations. Conclusion: The present study shows that the most common phenotype of gene carriers of a BS-type SCN5A mutation is progressive cardiac conduction defects similar to the Lenègre disease phenotype. In consequence, we propose that carriers of a SCN5A mutation need a clinical and ECG follow-up because of the risk associated with severe conduction defects. [ABSTRACT FROM AUTHOR]

Published

2006

47. Monomorphic Ventricular Tachycardia Due to Brugada Syndrome Successfully Treated by Hydroquinidine Therapy in a 3-Year-Old Child.

Author

PROBST, VINCENT, EVAIN, STEPHANE, GOURNAY, VERONIQUE, MARIE, ALLOUIS, SCHOTT, JEAN‐JACQUES, BOISSEAU, PIERRE, and LE MAREC, HERVE

Subjects

VENTRICULAR tachycardia, BRUGADA syndrome, QUINIDINE, VENTRICULAR fibrillation, ARRHYTHMIA in children, GENETIC mutation, ELECTROCARDIOGRAPHY, PEDIATRIC cardiology

Abstract

Mutations in the SCN5A gene can cause Brugada syndrome, a genetically inherited form of idiopathic ventricular fibrillation. We describe the case of a 3-year-old child with a structurally normal heart presenting with monomorphic ventricular tachycardia. Her electrocardiogram suggested a Brugada syndrome and the diagnosis was confirmed by the identification of a Brugada syndrome in her mother and in two other family members. Genetic study led to the identification of a c.2516T→C SCN5A mutation. The child was treated with quinidine therapy without recurrence of arrhythmic events for a time period of 16 months. [ABSTRACT FROM AUTHOR]

Published

2006

48. Ridge segmentation and the magnetic structure of the Southwest Indian Ridge (at 50°30′E, 55°30′E and 66°20′E): Implications for magmatic processes at ultraslow-spreading centers.

Author

Sauter, Daniel, Carton, Hélène, Mendel, Véronique, Munschy, Marc, Rommevaux-Jestin, Céline, Schott, Jean-Jacques, and Whitechurch, Hubert

Published

2004

49. Cardiac retention of [[sup 11]C]HED in genotyped long QT patients: a potential amplifier role for severity of the disease.

Author

Mazzadi, Alejandro N., André-Fouët, Xavier, Duisit, Jérôme, Gebuhrer, Véronique, Costes, Nicolas, Chevalier, Philippe, Rodriguez, Claire, Schott, Jean-Jacques, Le Marec, Hervé, Guicheney, Pascale, Le Bars, Didier, and Janier, Marc

Subjects

HEART diseases, POSITRON emission tomography

Abstract

Although mutations in cardiac sodium and potassium channel genes are associated with congenital long QT syndrome (LQTS), a "modifier" role of the sympathetic nervous system was proposed to explain the distinct severity of the disease. We evaluated cardiac sympathetic innervation using [[sup 11]C]hydroxyephedrine ([[sup 11]C]HED) and positron emission tomography (PET) in genotyped LQTS patients. H[sub 2][sup 15]O and [[sup 11]C]HED PET studies were performed in 11 patients (5 symptomatic) and 8 controls. Perfusion and [[sup 11]C]HED images were depicted as 36-sector polar maps. Sectorial values of perfusion (H[sub 2]O[sub %]), absolute (HED[sub Ret]) and relative retention (HED[sub %Ret]) of [[sup 11]C]HED, and the ratio of HED[sub %Ret] to H[sub 2]O% (HED[sub %Ret]H[sub 2]O[sub %]) were calculated. Normal databases were obtained from controls. Sectorial values below 2SD database values were defined as "outside sectors." Controls and patients showed similar sectorial perfusion. Sectorial HEDger did not differ between groups, but means of HED[sub %Ret] were lower in three sectors for patients (P < 0.05). Three sectors from 3 controls had HED[sub %Ret] below 2SD, whereas 36 sectors in 9 patients were outside sectors (P < 0.01). In patients, average HED[sub %Ret/H[sub 2]O[sub %] was lower in 9 sectors (P < 0.05 vs. controls); 2 outside sectors were found in controls, but 43 outside sectors were found in patients (P < 0.01), 77% of them in the 5 symptomatic patients. Heterogeneous [[sup 11]C]HED retention was localized in the septal, anterior, and lateral walls. Most LQTS patients showed a localized and decreased pattern of [[sup 11]C]HED retention. The larger number of heterogeneous sectors in symptomatic patients suggests that sympathetic function could play an amplifier role for severity of the disease. [ABSTRACT FROM AUTHOR]

Published

2003

50. Ankyrin-B mutation causes type 4 long-QT cardiac arrhythmia and sudden cardiac death.

Author

Mohler, Peter J., Schott, Jean-Jacques, Gramolini, Anthony O., Dilly, Keith W., Guatimosim, Silvia, duBell, William H., Song, Long-Sheng, Haurogné, Karine, Kyndt, Florence, Ali, Mervat E., Rogers, Terry B., Lederer, W. J., Escande, Denis, Marec, Herve Le, and Bennett, Vann

Subjects

GENETIC mutation, ARRHYTHMIA, CARDIAC arrest

Abstract

Mutations in ion channels involved in the generation and termination of action potentials constitute a family of molecular defects that underlie fatal cardiac arrhythmias in inherited long-QT syndrome. We report here that a loss-of-function (E1425G) mutation in ankyrin-B (also known as ankyrin 2), a member of a family of versatile membrane adapters, causes dominantly inherited type 4 long-QT cardiac arrhythmia in humans. Mice heterozygous for a null mutation in ankyrin-B are haploinsufficient and display arrhythmia similar to humans. Mutation of ankyrin-B results in disruption in the cellular organization of the sodium pump, the sodium/calcium exchanger, and inositol-1,4,5-trisphosphate receptors (all ankyrin-B-binding proteins), which reduces the targeting of these proteins to the transverse tubules as well as reducing overall protein level. Ankyrin-B mutation also leads to altered Ca2+ signalling in adult cardiomyocytes that results in extrasystoles, and provides a rationale for the arrhythmia. Thus, we identify a new mechanism for cardiac arrhythmia due to abnormal coordination of multiple functionally related ion channels and transporters. [ABSTRACT FROM AUTHOR]

Published

2003