44 results on '"Mastantuono, E"'
Search Results
2. Sequential defects in cardiac lineage commitment and maturation cause hypoplastic left heart syndrome
- Author
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Krane, M, Dressen, M, Santamaria, G, My, I, Schneider, C, Dorn, T, Laue, S, Mastantuono, E, Berutti, R, Rawat, H, Gilsbach, R, Schneider, P, Lahm, H, Schwarz, S, Doppler, S, Paige, S, Puluca, N, Doll, S, Neb, I, Brade, T, Zhang, Z, Abou-Ajram, C, Northoff, B, Holdt, L, Sudhop, S, Sahara, M, Goedel, A, Dendorfer, A, Tjong, F, Rijlaarsdam, M, Cleuziou, J, Lang, N, Kupatt, C, Bezzina, C, Lange, R, Bowles, N, Mann, M, Gelb, B, Crotti, L, Hein, L, Meitinger, T, Wu, S, Sinnecker, D, Gruber, P, Laugwitz, K, Moretti, A, Krane M., Dressen M., Santamaria G., My I., Schneider C. M., Dorn T., Laue S., Mastantuono E., Berutti R., Rawat H., Gilsbach R., Schneider P., Lahm H., Schwarz S., Doppler S. A., Paige S., Puluca N., Doll S., Neb I., Brade T., Zhang Z., Abou-Ajram C., Northoff B., Holdt L. M., Sudhop S., Sahara M., Goedel A., Dendorfer A., Tjong F. V. Y., Rijlaarsdam M. E., Cleuziou J., Lang N., Kupatt C., Bezzina C., Lange R., Bowles N. E., Mann M., Gelb B. D., Crotti L., Hein L., Meitinger T., Wu S., Sinnecker D., Gruber P. J., Laugwitz K. -L., Moretti A., Krane, M, Dressen, M, Santamaria, G, My, I, Schneider, C, Dorn, T, Laue, S, Mastantuono, E, Berutti, R, Rawat, H, Gilsbach, R, Schneider, P, Lahm, H, Schwarz, S, Doppler, S, Paige, S, Puluca, N, Doll, S, Neb, I, Brade, T, Zhang, Z, Abou-Ajram, C, Northoff, B, Holdt, L, Sudhop, S, Sahara, M, Goedel, A, Dendorfer, A, Tjong, F, Rijlaarsdam, M, Cleuziou, J, Lang, N, Kupatt, C, Bezzina, C, Lange, R, Bowles, N, Mann, M, Gelb, B, Crotti, L, Hein, L, Meitinger, T, Wu, S, Sinnecker, D, Gruber, P, Laugwitz, K, Moretti, A, Krane M., Dressen M., Santamaria G., My I., Schneider C. M., Dorn T., Laue S., Mastantuono E., Berutti R., Rawat H., Gilsbach R., Schneider P., Lahm H., Schwarz S., Doppler S. A., Paige S., Puluca N., Doll S., Neb I., Brade T., Zhang Z., Abou-Ajram C., Northoff B., Holdt L. M., Sudhop S., Sahara M., Goedel A., Dendorfer A., Tjong F. V. Y., Rijlaarsdam M. E., Cleuziou J., Lang N., Kupatt C., Bezzina C., Lange R., Bowles N. E., Mann M., Gelb B. D., Crotti L., Hein L., Meitinger T., Wu S., Sinnecker D., Gruber P. J., Laugwitz K. -L., and Moretti A.
- Abstract
BACKGROUND: Complex molecular programs in specific cell lineages govern human heart development. Hypoplastic left heart syndrome (HLHS) is the most common and severe manifestation within the spectrum of left ventricular outflow tract obstruction defects occurring in association with ventricular hypoplasia. The pathogenesis of HLHS is unknown, but hemodynamic disturbances are assumed to play a prominent role. METHODS: To identify perturbations in gene programs controlling ventricular muscle lineage development in HLHS, we performed whole-exome sequencing of 87 HLHS parent-offspring trios, nuclear transcriptomics of cardiomyocytes from ventricles of 4 patients with HLHS and 15 controls at different stages of heart development, single cell RNA sequencing, and 3D modeling in induced pluripotent stem cells from 3 patients with HLHS and 3 controls. RESULTS: Gene set enrichment and protein network analyses of damaging de novo mutations and dysregulated genes from ventricles of patients with HLHS suggested alterations in specific gene programs and cellular processes critical during fetal ventricular cardiogenesis, including cell cycle and cardiomyocyte maturation. Single-cell and 3D modeling with induced pluripotent stem cells demonstrated intrinsic defects in the cell cycle/unfolded protein response/autophagy hub resulting in disrupted differentiation of early cardiac progenitor lineages leading to defective cardiomyocyte subtype differentiation/ maturation in HLHS. Premature cell cycle exit of ventricular cardiomyocytes from patients with HLHS prevented normal tissue responses to developmental signals for growth, leading to multinucleation/polyploidy, accumulation of DNA damage, and exacerbated apoptosis, all potential drivers of left ventricular hypoplasia in absence of hemodynamic cues. CONCLUSIONS: Our results highlight that despite genetic heterogeneity in HLHS, many mutations converge on sequential cellular processes primarily driving cardiac myogenesis, suggesting n
- Published
- 2021
3. Biallelic C1QBP Mutations Cause Severe Neonatal-, Childhood-, or Later-Onset Cardiomyopathy Associated with Combined Respiratory-Chain Deficiencies
- Author
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Feichtinger R. G., Olahova M., Kishita Y., Garone C., Kremer L. S., Yagi M., Uchiumi T., Jourdain A. A., Thompson K., D'Souza A. R., Kopajtich R., Alston C. L., Koch J., Sperl W., Mastantuono E., Strom T. M., Wortmann S. B., Meitinger T., Pierre G., Chinnery P. F., Chrzanowska-Lightowlers Z. M., Lightowlers R. N., DiMauro S., Calvo S. E., Mootha V. K., Moggio M., Sciacco M., Comi G. P., Ronchi D., Murayama K., Ohtake A., Rebelo-Guiomar P., Kohda M., Kang D., Mayr J. A., Taylor R. W., Okazaki Y., Minczuk M., Prokisch H., Garone, Caterina [0000-0003-4928-1037], Chinnery, Patrick [0000-0002-7065-6617], Minczuk, Michal [0000-0001-8242-1420], Apollo - University of Cambridge Repository, Feichtinger R.G., Olahova M., Kishita Y., Garone C., Kremer L.S., Yagi M., Uchiumi T., Jourdain A.A., Thompson K., D'Souza A.R., Kopajtich R., Alston C.L., Koch J., Sperl W., Mastantuono E., Strom T.M., Wortmann S.B., Meitinger T., Pierre G., Chinnery P.F., Chrzanowska-Lightowlers Z.M., Lightowlers R.N., DiMauro S., Calvo S.E., Mootha V.K., Moggio M., Sciacco M., Comi G.P., Ronchi D., Murayama K., Ohtake A., Rebelo-Guiomar P., Kohda M., Kang D., Mayr J.A., Taylor R.W., Okazaki Y., Minczuk M., and Prokisch H.
- Subjects
Male ,Mitochondrial Diseases ,Protein Conformation ,Sequence Homology ,Severity of Illness Index ,Cohort Studies ,Mice ,Mitochondrial Disease ,Age of Onset ,Cells, Cultured ,Allele ,multiple mtDNA deletions ,Middle Aged ,Pedigree ,mitochondria ,Child, Preschool ,Adult ,Aged ,Alleles ,Amino Acid Sequence ,Animals ,Cardiomyopathies/complications ,Cardiomyopathies/genetics ,Cardiomyopathies/pathology ,Carrier Proteins/chemistry ,Carrier Proteins/genetics ,Carrier Proteins/metabolism ,DNA, Mitochondrial ,Electron Transport/physiology ,Embryo, Mammalian/metabolism ,Embryo, Mammalian/pathology ,Female ,Fibroblasts/metabolism ,Fibroblasts/pathology ,Humans ,Infant, Newborn ,Mitochondrial Diseases/complications ,Mitochondrial Diseases/genetics ,Mitochondrial Diseases/pathology ,Mitochondrial Proteins/chemistry ,Mitochondrial Proteins/genetics ,Mitochondrial Proteins/metabolism ,Mutation ,Oxidative Phosphorylation ,Young Adult ,MAM33 ,PEO ,lactate ,myopathy ,oxidative phosphorylation ,p32 ,progressive external ophthalmoplegia ,multiple mtDNA deletion ,Fibroblast ,Cardiomyopathies ,Human ,Article ,Electron Transport ,Mitochondrial Proteins ,Mitochondrial Protein ,Cardiomyopathie ,Animal ,Fibroblasts ,Embryo, Mammalian ,Cohort Studie ,Carrier Protein ,Carrier Proteins - Abstract
Complement component 1 Q subcomponent-binding protein (C1QBP; also known as p32) is a multi-compartmental protein whose precise function remains unknown. It is an evolutionary conserved multifunctional protein localized primarily in the mitochondrial matrix and has roles in inflammation and infection processes, mitochondrial ribosome biogenesis, and regulation of apoptosis and nuclear transcription. It has an N-terminal mitochondrial targeting peptide that is proteolytically processed after import into the mitochondrial matrix, where it forms a homotrimeric complex organized in a doughnut-shaped structure. Although C1QBP has been reported to exert pleiotropic effects on many cellular processes, we report here four individuals from unrelated families where biallelic mutations in C1QBP cause a defect in mitochondrial energy metabolism. Infants presented with cardiomyopathy accompanied by multisystemic involvement (liver, kidney, and brain), and children and adults presented with myopathy and progressive external ophthalmoplegia. Multiple mitochondrial respiratory-chain defects, associated with the accumulation of multiple deletions of mitochondrial DNA in the later-onset myopathic cases, were identified in all affected individuals. Steady-state C1QBP levels were decreased in all individuals' samples, leading to combined respiratory-chain enzyme deficiency of complexes I, III, and IV. C1qbp -/- mouse embryonic fibroblasts (MEFs) resembled the human disease phenotype by showing multiple defects in oxidative phosphorylation (OXPHOS). Complementation with wild-type, but not mutagenized, C1qbp restored OXPHOS protein levels and mitochondrial enzyme activities in C1qbp -/- MEFs. C1QBP deficiency represents an important mitochondrial disorder associated with a clinical spectrum ranging from infantile lactic acidosis to childhood (cardio)myopathy and late-onset progressive external ophthalmoplegia.
- Published
- 2017
4. Idling Vehicle Emissions and Fuel Consumption in Urban Use: Influence of the Stop&Start Technology
- Author
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PRATI, M. V., COSTAGLIOLA, M. A., PAGLIARA, F., MASTANTUONO, E., Prati, M. V., Costagliola, M. A., Pagliara, F., and Mastantuono, E.
- Published
- 2018
5. Clinical, biochemical and genetic spectrum of 70 patients with ACAD9 deficiency: is riboflavin supplementation effective?
- Author
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Repp, B, Mastantuono, E, Rötig, A, and Poulton, J
- Abstract
Background: Mitochondrial acyl-CoA dehydrogenase family member 9 (ACAD9) is essential for the assembly of mitochondrial respiratory chain complex I. Disease causing biallelic variants in ACAD9 have been reported in individuals presenting with lactic acidosis and cardiomyopathy. Results: We describe the genetic, clinical and biochemical findings in a cohort of 70 patients, of whom 29 previously unpublished. We found 34 known and 18 previously unreported variants in ACAD9. No patients harbored biallelic loss of function mutations, indicating that this combination is unlikely to be compatible with life. Causal pathogenic variants were distributed throughout the entire gene, and there was no obvious genotype-phenotype correlation. Most of the patients presented in the first year of life. For this subgroup the survival was poor (50% not surviving the first 2 years) comparing to patients with a later presentation (more than 90% surviving 10 years). The most common clinical findings were cardiomyopathy (85%), muscular weakness (75%) and exercise intolerance (72%). Interestingly, severe intellectual deficits were only reported in one patient and severe developmental delays in four patients. More than 70% of the patients were able to perform the same activities of daily living when compared to peers. Conclusions: Our data show that riboflavin treatment improves complex I activity in the majority of patient-derived fibroblasts tested. This effect was also reported for most of the treated patients and is mirrored in the survival data. In the patient group with disease-onset below 1 year of age, we observed a statistically-significant better survival for patients treated with riboflavin.
- Published
- 2018
6. Clinical, biochemical and genetic spectrum of 70 patients with ACAD9 deficiency: Is riboflavin supplementation effective?
- Author
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Repp, B.M. (Birgit M.), Mastantuono, E. (Elisa), Alston, C.L. (Charlotte L.), Schiff, M. (Manuel), Haack, T.B. (Tobias B.), Rötig, A. (Agns), Ardissone, A. (Anna), Lombès, A. (Anne), Catarino, C.F.B.S., Diodato, D. (Daria), Schottmann, G. (Gudrun), Poulton, J. (Joanna), Burlina, A.B. (Alberto), Jonckheere, A. (An), Munnich, A. (Arnold), Rolinski, B. (Boris), Ghezzi, D. (Daniele), Rokicki, D. (Dariusz), Wellesley, D. (Diana), Martinelli, D. (Diego), Wenhong, D. (Ding), Lamantea, E. (Eleonora), Østergaard, E. (Elsebet), Pronicka, E. (Ewa), Pierre, G. (Germaine), Smeets, H.J.M. (Hubert), Wittig, I. (Ilka), Scurr, I. (Ingrid), Coo, I.F.M. (René) de, Moroni, I. (Isabella), Smet, J. (Joél), Mayr, J.A. (Johannes A.), Dai, L. (Lifang), Meirleir, L. (Linda) de, Schuelke, M. (Markus), Zeviani, M. (Massimo), Morscher, R.J. (Raphael J.), McFarland, R. (Robert), Seneca, S. (S.), Klopstock, T. (Thomas), Meitinger, T. (Thomas), Wieland, T. (Thomas), Strom, T.M. (Tim), Herberg, U. (Ulrike), Ahting, U. (Uwe), Sperl, W. (Wolfgang), Nassogne, M.C. (M.), Ling, H. (Han), Fang, F. (Fang), Freisinger, P. (Peter), Coster, R.N.A. (R. N A) van, Strecker, V. (Valentina), Taylor, R.W. (Robert William), Häberle, J. (Johannes), Vockley, J. (Jerry), Prokisch, H. (Holger), Wortmann, S.B. (S.), Repp, B.M. (Birgit M.), Mastantuono, E. (Elisa), Alston, C.L. (Charlotte L.), Schiff, M. (Manuel), Haack, T.B. (Tobias B.), Rötig, A. (Agns), Ardissone, A. (Anna), Lombès, A. (Anne), Catarino, C.F.B.S., Diodato, D. (Daria), Schottmann, G. (Gudrun), Poulton, J. (Joanna), Burlina, A.B. (Alberto), Jonckheere, A. (An), Munnich, A. (Arnold), Rolinski, B. (Boris), Ghezzi, D. (Daniele), Rokicki, D. (Dariusz), Wellesley, D. (Diana), Martinelli, D. (Diego), Wenhong, D. (Ding), Lamantea, E. (Eleonora), Østergaard, E. (Elsebet), Pronicka, E. (Ewa), Pierre, G. (Germaine), Smeets, H.J.M. (Hubert), Wittig, I. (Ilka), Scurr, I. (Ingrid), Coo, I.F.M. (René) de, Moroni, I. (Isabella), Smet, J. (Joél), Mayr, J.A. (Johannes A.), Dai, L. (Lifang), Meirleir, L. (Linda) de, Schuelke, M. (Markus), Zeviani, M. (Massimo), Morscher, R.J. (Raphael J.), McFarland, R. (Robert), Seneca, S. (S.), Klopstock, T. (Thomas), Meitinger, T. (Thomas), Wieland, T. (Thomas), Strom, T.M. (Tim), Herberg, U. (Ulrike), Ahting, U. (Uwe), Sperl, W. (Wolfgang), Nassogne, M.C. (M.), Ling, H. (Han), Fang, F. (Fang), Freisinger, P. (Peter), Coster, R.N.A. (R. N A) van, Strecker, V. (Valentina), Taylor, R.W. (Robert William), Häberle, J. (Johannes), Vockley, J. (Jerry), Prokisch, H. (Holger), and Wortmann, S.B. (S.)
- Abstract
Background: Mitochondrial acyl-CoA dehydrogenase family member 9 (ACAD9) is essential for the assembly of mitochondrial respiratory chain complex I. Disease causing biallelic variants in ACAD9 have been reported in individuals presenting with lactic acidosis and cardiomyopathy. Results: We describe the genetic, clinical and biochemical findings in a cohort of 70 patients, of whom 29 previously unpublished. We found 34 known and 18 previously unreported variants in ACAD9. No patients harbored biallelic loss of function mutations, indicating that this combination is unlikely to be compatible with life. Causal pathogenic variants were distributed throughout the entire gene, and there was no obvious genotype-phenotype correlation. Most of the patients presented in the first year of life. For this subgroup the survival was poor (50% not surviving the first 2 years) comparing to patients with a later presentation (more than 90% surviving 10 years). The most common clinical findings were cardiomyopathy (85%), muscular weakness (75%) and exercise intolerance (72%). Interestingly, severe intellectual deficits were only reported in one patient and s
- Published
- 2018
- Full Text
- View/download PDF
7. Clinical, biochemical and genetic spectrum of 70 patients with ACAD9 deficiency: is riboflavin supplementation effective?
- Author
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Repp, BM, Mastantuono, E, Alston, CL, Schiff, M, Haack, TB, Rotig, A, Ardissone, A, Lombes, A, Catarino, CB, Diodato, D, Schottmann, G, Poulton, J, Burlina, A, Jonckheere, A, Munnich, A, Rolinski, B, Ghezzi, D, Rokicki, D, Wellesley, D, Martinelli, D, Ding, WH, Lamantea, E, Ostergaard, E, Pronicka, E, Pierre, G, Smeets, HJM, Wittig, I, Scurr, I, Coo, IFM, Moroni, I, Smet, J, Mayr, JA, Dai, LF, de Meirleir, L, Schuelke, M, Zeviani, M, Morscher, RJ, McFarland, R, Seneca, S, Klopstock, T, Meitinger, T, Wieland, T, Strom, TM, Herberg, U, Ahting, U, Sperl, W, Nassogne, MC, Ling, H, Fang, F, Freisinger, P, Van Coster, R, Strecker, V, Taylor, RW, Haberle, J, Vockley, J, Prokisch, H, Wortmann, S, Repp, BM, Mastantuono, E, Alston, CL, Schiff, M, Haack, TB, Rotig, A, Ardissone, A, Lombes, A, Catarino, CB, Diodato, D, Schottmann, G, Poulton, J, Burlina, A, Jonckheere, A, Munnich, A, Rolinski, B, Ghezzi, D, Rokicki, D, Wellesley, D, Martinelli, D, Ding, WH, Lamantea, E, Ostergaard, E, Pronicka, E, Pierre, G, Smeets, HJM, Wittig, I, Scurr, I, Coo, IFM, Moroni, I, Smet, J, Mayr, JA, Dai, LF, de Meirleir, L, Schuelke, M, Zeviani, M, Morscher, RJ, McFarland, R, Seneca, S, Klopstock, T, Meitinger, T, Wieland, T, Strom, TM, Herberg, U, Ahting, U, Sperl, W, Nassogne, MC, Ling, H, Fang, F, Freisinger, P, Van Coster, R, Strecker, V, Taylor, RW, Haberle, J, Vockley, J, Prokisch, H, and Wortmann, S
- Published
- 2018
8. Identification of Cadherin 2 (CDH2) Mutations in Arrhythmogenic Right Ventricular Cardiomyopathy
- Author
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Mayosi, B, Fish, M, Shaboodien, G, Mastantuono, E, Kraus, S, Wieland, T, Kotta, M, Chin, A, Laing, N, Ntusi, N, Chong, M, Horsfall, C, Pimstone, S, Gentilini, D, Parati, G, Strom, T, Meitinger, T, Pare, G, Schwartz, P, Crotti, L, CROTTI, LIA, Mayosi, B, Fish, M, Shaboodien, G, Mastantuono, E, Kraus, S, Wieland, T, Kotta, M, Chin, A, Laing, N, Ntusi, N, Chong, M, Horsfall, C, Pimstone, S, Gentilini, D, Parati, G, Strom, T, Meitinger, T, Pare, G, Schwartz, P, Crotti, L, and CROTTI, LIA
- Abstract
Background - Arrhythmogenic right ventricular cardiomyopathy (ARVC) is a genetically heterogeneous condition caused by mutations in genes encoding desmosomal proteins in up to 60% of cases. The 40% of genotype-negative cases point to the need of identifying novel genetic substrates by studying genotype-negative ARVC families. Methods and Results - Whole exome sequencing was performed on 2 cousins with ARVC. Validation of 13 heterozygous variants that survived internal quality and frequency filters was performed by Sanger sequencing. These variants were also genotyped in all family members to establish genotype-phenotype cosegregation. High-resolution melting analysis followed by Sanger sequencing was used to screen for mutations in cadherin 2 (CDH2) gene in unrelated genotype-negative patients with ARVC. In a 3-generation family, we identified by whole exome sequencing a novel mutation in CDH2 (c.686A>C, p.Gln229Pro) that cosegregated with ARVC in affected family members. The CDH2 c.686A>C variant was not present in >200 000 chromosomes available through public databases, which changes a conserved amino acid of cadherin 2 protein and is supported as the causal mutation by parametric linkage analysis. We subsequently screened 73 genotype-negative ARVC probands tested previously for mutations in known ARVC genes and found an additional likely pathogenic variant in CDH2 (c.1219G>A, p.Asp407Asn). CDH2 encodes cadherin 2 (also known as N-cadherin), a protein that plays a vital role in cell adhesion, making it a biologically plausible candidate gene in ARVC pathogenesis. Conclusions - These data implicate CDH2 mutations as novel genetic causes of ARVC and contribute to a more complete identification of disease genes involved in cardiomyopathy.
- Published
- 2017
9. Response by Crotti et al to letter regarding article, 'Genetic modifiers for the long-QT syndrome: How important is the role of variants in the 3 ' untranslated region of KCNQ1?'
- Author
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Crotti, L., Lahtinen, A.M., Spazzolini, C., Mastantuono, E., Monti, M.C., Morassutto, C., Parati, G., Heradien, M., Goosen, A., Lichtner, P., Meitinger, T., Brink, P.A., Kontula, K., Swan, H., and Schwartz, P.J.
- Published
- 2016
10. Genetic modifiers for the long-QT syndrome: How important Is the role of variants in the 3' untranslated region of KCNQ1?
- Author
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Crotti, L., Lahtinen, A.M., Spazzolini, C., Mastantuono, E., Monti, M.C., Morassutto, C., Parati, G., Heradien, M., Goosen, A., Lichtner, P., Meitinger, T., Brink, P.A., Kontula, K., Swan, H., and Schwartz, P.J.
- Subjects
Kcnq1 Potassium Channel ,Arrhythmias ,Genes, Modifier ,Long-qt Syndrome ,Untranslated Region - Abstract
BACKGROUND: Long-QT syndrome is an inherited cardiac channelopathy characterized by delayed repolarization, risk of life-threatening arrhythmia, and significant clinical variability even within families. Three single-nucleotide polymorphisms (SNPs) in the 3' untranslated region of KCNQ1 were recently suggested to be associated with suppressed gene expression and hence decreased disease severity when located on the same haplotype with a disease-causing KCNQ1 mutation. We sought to replicate this finding in a larger and a genetically more homogeneous population of KCNQ1 mutation carriers. METHODS AND RESULTS: The 3 SNPs (rs2519184, rs8234, and rs10798) were genotyped in a total of 747 KCNQ1 mutation carriers with A341V, G589D, or IVS7-2A>G mutation. The SNP haplotypes were assigned based on family trees. The SNP allele frequencies and clinical severity differed between the 3 mutation groups. The different SNP haplotypes were neither associated with heart rate-corrected QT interval duration (QTc) nor cardiac events in any of the 3 mutation groups. When the mutation groups were combined, the derived SNP haplotype of rs8234 and rs10798 located on the same haplotype with the mutation was associated with a shorter QTc interval (P
- Published
- 2016
11. Condizioni cliniche associate ad anomalie dell'intervallo QT: Implicazioni cliniche [Clinical conditions associated with abnormal QT interval: clinical implications]
- Author
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Crotti, L, Dossena, C, Mastantuono, E, Dagradi, F, Schwartz, P, Crotti L., Dossena C., Mastantuono E., Dagradi F., Schwartz PJ., Crotti, L, Dossena, C, Mastantuono, E, Dagradi, F, Schwartz, P, Crotti L., Dossena C., Mastantuono E., Dagradi F., and Schwartz PJ.
- Abstract
Impressive progress has been made in the last 40 years in the understanding of the role of QT interval and its genetic basis in sudden cardiac death risk. The present review will provide a first practical part on QT measurement and its correction for heart rate. Subsequently, the long QT syndrome and short QT syndrome will be described, as the two main arrhythmogenic congenital heart diseases characterized by abnormal QT length. Furthermore, we will discuss about prolonged QT in the pathogenesis of sudden infant death syndrome and the preventive role of neonatal ECG screening. The prognostic role of QT interval will be presented also in the context of myocardial infarction and hypertrophic cardiomyopathy. The last part of the review is devoted to future perspectives and latest results on modifier genes
- Published
- 2013
12. Condizioni cliniche associate ad anomalie dell'intervallo QT: Implicazioni cliniche [Clinical conditions associated with abnormal QT interval: clinical implications]
- Author
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Crotti L., Dossena C., Mastantuono E., Dagradi F., Schwartz PJ., Crotti, L, Dossena, C, Mastantuono, E, Dagradi, F, and Schwartz, P
- Subjects
Myocardial infarction ,Sudden cardiac death ,Genetic ,MED/11 - MALATTIE DELL'APPARATO CARDIOVASCOLARE ,Long QT syndrome - Abstract
Impressive progress has been made in the last 40 years in the understanding of the role of QT interval and its genetic basis in sudden cardiac death risk. The present review will provide a first practical part on QT measurement and its correction for heart rate. Subsequently, the long QT syndrome and short QT syndrome will be described, as the two main arrhythmogenic congenital heart diseases characterized by abnormal QT length. Furthermore, we will discuss about prolonged QT in the pathogenesis of sudden infant death syndrome and the preventive role of neonatal ECG screening. The prognostic role of QT interval will be presented also in the context of myocardial infarction and hypertrophic cardiomyopathy. The last part of the review is devoted to future perspectives and latest results on modifier genes
- Published
- 2013
13. The genetics underlying acquired long QT syndrome: Impact for genetic screening
- Author
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Itoh, H, Crotti, L, Aiba, T, Spazzolini, C, Denjoy, I, Fressart, V, Hayashi, K, Nakajima, T, Ohno, S, Makiyama, T, Wu, J, Hasegawa, K, Mastantuono, E, Dagradi, F, Pedrazzini, M, Yamagishi, M, Berthet, M, Murakami, Y, Shimizu, W, Guicheney, P, Schwartz, P, Horie, M, Itoh, H, Crotti, L, Aiba, T, Spazzolini, C, Denjoy, I, Fressart, V, Hayashi, K, Nakajima, T, Ohno, S, Makiyama, T, Wu, J, Hasegawa, K, Mastantuono, E, Dagradi, F, Pedrazzini, M, Yamagishi, M, Berthet, M, Murakami, Y, Shimizu, W, Guicheney, P, Schwartz, P, and Horie, M
- Abstract
Aims Acquired long QT syndrome (aLQTS) exhibits QT prolongation and Torsades de Pointes ventricular tachycardia triggered by drugs, hypokalaemia, or bradycardia. Sometimes, QTc remains prolonged despite elimination of triggers, suggesting the presence of an underlying genetic substrate. In aLQTS subjects, we assessed the prevalence of mutations in major LQTS genes and their probability of being carriers of a disease-causing genetic variant based on clinical factors. Methods and results We screened for the five major LQTS genes among 188 aLQTS probands (55 ± 20 years, 140 females) from Japan, France, and Italy. Based on control QTc (without triggers), subjects were designated 'true aLQTS' (QTc within normal limits) or 'unmasked cLQTS' (all others) and compared for QTc and genetics with 2379 members of 1010 genotyped congenital long QT syndrome (cLQTS) families. Cardiac symptoms were present in 86% of aLQTS subjects. Control QTc of aLQTS was 453 ± 39 ms, shorter than in cLQTS (478 ± 46 ms, P < 0.001) and longer than in non-carriers (406 ± 26 ms, P < 0.001). In 53 (28%) aLQTS subjects, 47 disease-causing mutations were identified. Compared with cLQTS, in 'true aLQTS', KCNQ1 mutations were much less frequent than KCNH2 (20% [95% CI 7-41%] vs. 64% [95% CI 43-82%], P < 0.01). A clinical score based on control QTc, age, and symptoms allowed identification of patients more likely to carry LQTS mutations. Conclusion A third of aLQTS patients carry cLQTS mutations, those on KCNH2 being more common. The probability of being a carrier of cLQTS disease-causing mutations can be predicted by simple clinical parameters, thus allowing possibly cost-effective genetic testing leading to cascade screening for identification of additional at-risk family members.
- Published
- 2016
14. Response by Crotti et al to Letter Regarding Article, 'genetic Modifiers for the Long-QT Syndrome: How Important Is the Role of Variants in the 3′ Untranslated Region of KCNQ1?'
- Author
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Crotti, L, Lahtinen, A, Spazzolini, C, Mastantuono, E, Monti, M, Morassutto, C, Parati, G, Heradien, M, Goosen, A, Lichtner, P, Meitinger, T, Brink, P, Kontula, K, Swan, H, Schwartz, P, Schwartz, PJ., Crotti, L, Lahtinen, A, Spazzolini, C, Mastantuono, E, Monti, M, Morassutto, C, Parati, G, Heradien, M, Goosen, A, Lichtner, P, Meitinger, T, Brink, P, Kontula, K, Swan, H, Schwartz, P, and Schwartz, PJ.
- Published
- 2016
15. Genetic Modifiers for the Long-QT Syndrome: How Important Is the Role of Variants in the 3′ Untranslated Region of KCNQ1?
- Author
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Crotti, L, Lahtinen, A, Spazzolini, C, Mastantuono, E, Monti, M, Morassutto, C, Parati, G, Heradien, M, Goosen, A, Lichtner, P, Meitinger, T, Brink, P, Kontula, K, Swan, H, Schwartz, P, Schwartz, P., Crotti, L, Lahtinen, A, Spazzolini, C, Mastantuono, E, Monti, M, Morassutto, C, Parati, G, Heradien, M, Goosen, A, Lichtner, P, Meitinger, T, Brink, P, Kontula, K, Swan, H, Schwartz, P, and Schwartz, P.
- Abstract
Background-Long-QT syndrome is an inherited cardiac channelopathy characterized by delayed repolarization, risk of life-threatening arrhythmia, and significant clinical variability even within families. Three single-nucleotide polymorphisms (SNPs) in the 3′ untranslated region of KCNQ1 were recently suggested to be associated with suppressed gene expression and hence decreased disease severity when located on the same haplotype with a disease-causing KCNQ1 mutation. We sought to replicate this finding in a larger and a genetically more homogeneous population of KCNQ1 mutation carriers. Methods and Results-The 3 SNPs (rs2519184, rs8234, and rs10798) were genotyped in a total of 747 KCNQ1 mutation carriers with A341V, G589D, or IVS7-2A>G mutation. The SNP haplotypes were assigned based on family trees. The SNP allele frequencies and clinical severity differed between the 3 mutation groups. The different SNP haplotypes were neither associated with heart rate-corrected QT interval duration (QTc) nor cardiac events in any of the 3 mutation groups. When the mutation groups were combined, the derived SNP haplotype of rs8234 and rs10798 located on the same haplotype with the mutation was associated with a shorter QTc interval (P<0.05) and a reduced occurrence of cardiac events (P<0.01), consistent with the previous finding. However, when the population-specific mutation was controlled for, both associations were no longer evident. Conclusions-3′ Untranslated region SNPs are not acting as genetic modifiers in a large group of LQT1 patients. The confounding effect of merging a genetically and clinically heterogeneous group of patients needs to be taken into account when studying disease modifiers.
- Published
- 2016
16. Novel calmodulin (CALM2) mutations associated with congenital arrhythmia susceptibility
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Makita, N., Yagihara, N., Crotti, L., Johnson, C.N., Beckmann, B.M., Roh, M.S., Shigemizu, D., Lichtner, P., Ishikawa, T., Aiba, T., Homfray, T., Behr, E.R., Klug, D., Denjoy, I., Mastantuono, E., Theisen, D., Tsunoda, T., Satake, W., Toda, T., Nakagawa, H., Tsuji, Y., Tsuchiya, T., Yamamoto, H., Miyamoto, Y., Endo, N., Kimura, A., Ozaki, K., Motomura, H., Suda, K., Tanaka, T., Schwartz, P.J., Meitinger, T., Kääb, S., Guicheney, P., Shimizu, W., Bhuiyan, Z.A., Watanabe, H., Chazin, W.J., and George, A.L.
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congenital, hereditary, and neonatal diseases and abnormalities ,cardiovascular diseases ,Calmodulin ,Genetics ,Long Qt Syndrome ,Ventricular Arrhythmia - Abstract
BACKGROUND: -Genetic predisposition to life-threatening cardiac arrhythmias such as in congenital long-QT syndrome (LQTS) and catecholaminergic polymorphic ventricular tachycardia (CPVT) represent treatable causes of sudden cardiac death in young adults and children. Recently, mutations in calmodulin (CALM1, CALM2) have been associated with severe forms of LQTS and CPVT, with life-threatening arrhythmias occurring very early in life. Additional mutation-positive cases are needed to discern genotype-phenotype correlations associated with calmodulin mutations. METHODS AND RESULTS: -We employed conventional and next-generation sequencing approaches including exome analysis in genotype-negative LQTS probands. We identified five novel de novo missense mutations in CALM2 in three subjects with LQTS (p.N98S, p.N98I, p.D134H) and two subjects with clinical features of both LQTS and CPVT (p.D132E, p.Q136P). Age of onset of major symptoms (syncope or cardiac arrest) ranged from 1-9 years. Three of five probands had cardiac arrest and one of these subjects did not survive. Although all probands had LQTS, two subjects also exhibited electrocardiographic features consistent with CPVT. The clinical severity among subjects in this series was generally less than that originally reported for CALM1 and CALM2 associated with recurrent cardiac arrest during infancy. Four of five probands responded to β-blocker therapy whereas one subject with mutation p.Q136P died suddenly during exertion despite this treatment. Mutations affect conserved residues located within calcium binding loops III (p.N98S, p.N98I) or IV (p.D132E, p.D134H, p.Q136P) and caused reduced calcium binding affinity. CONCLUSIONS: -CALM2M mutations can be associated with LQTS and with overlapping features of LQTS and CPVT.
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- 2014
17. [Surveillance system OKkio alla SALUTE: the role of primary school in the promotion of healthy life style--results in 2008]
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Lamberti A, Spinelli A, Giovanni Baglio, Nardone P, Mt, Silani, Mastantuono E, Teti S, Mt, Menzano, Galeone D, and Salute, Gruppo Okkio Alla
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Adult ,Male ,Schools ,Adolescent ,Body Weight ,Child Behavior ,Feeding Behavior ,Health Promotion ,Motor Activity ,Faculty ,Health Surveys ,Body Mass Index ,Italy ,Adolescent Behavior ,Population Surveillance ,Surveys and Questionnaires ,Humans ,Female ,Obesity ,Child ,Students ,Life Style ,Sicily - Abstract
In 2007 the Italian Ministry of Health/CCM promoted and funded the project "System of surveys of behavioral risks in ages 6-17", coordinated by the National Institute of Health. One of the aims of the project is the definition and implementation of a data collection system on the weight of primary school children, their eating habits, physical activity and school initiatives favoring the healthy growth of children, called "OKkio alla SALUTE". In 2008 the first survey of OKkio was conducted in 18 Italian regions. 45,590 third grade school children in 2610 classes participated. Information was collected from 2461 schools. The responses of the head teachers showed that 64% of the schools have a canteen, used by 70% of children. Only 12% of schools include the provision of a balanced mid-morning snack. Frequently there are educational activities related to physical activity and healthy eating that, in some cases, also involve the families of the children. 29% of the schools cannot guarantee two hours of physical activity as suggested by the school curriculum because of the lack or inadequacy of the gym or the structure of the timetables. The information gathered through the cooperation of school administrators, teachers and health workers, has helped to describe the major health educational activities of the school, that is confirmed to be the ideal venue for promoting healthy lifestyles in young people.
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- 2011
18. Differential Expression of Candidate Genes with de novo Mutations in Patients with Hypoplastic Left Heart Syndrome in Murine Cardiac Progenitor Cells
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Dreßen, M., primary, Crotti, L., additional, Lahm, H., additional, Moretti, A., additional, Wolf, K., additional, Cleuziou, J., additional, Schön, P., additional, Hörer, J., additional, Schreiber, C., additional, Doppler, S., additional, Werner, A., additional, Deutsch, M.-A., additional, Schiemann, M., additional, Brade, T., additional, Laue, S., additional, Oexle, K., additional, Mastantuono, E., additional, Gruber, P., additional, Laugwitz, K.-L., additional, Meitinger, T., additional, Lange, R., additional, and Krane, M., additional
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- 2015
- Full Text
- View/download PDF
19. Il sistema di sorveglianza OKkio alla SALUTE: il ruolo della scuola primaria nella promozione di stili di vita salutari. Risultati 2008 [Surveillance system OKkio alla SALUTE: the role of primary school in the promotion of healthy life style. Results of 2008]
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Lamberti, A, Spinelli, A, Baglio, G, Nardone, P, Silani, Mt, Mastantuono, E, Teti, S, Menzano, Mt, Galeone, D, Gruppo OKkio alla SALUTE 2008, Andreozzi, S, Binkin, N, Bucciarelli, M, Meucci, S, Perra, A, Censi, L, D'Addesa, D, D'Amicis, A, Ciglia, A, Di Giacomo, M, Cauzillo, G, Sorrentino, G, Fersini, G, Perri, G, La Rocca, M, De Lorenzo, G, Angelini, P, Di Martino, E, Carletti, C, Rincorosi, R, Cairella, G, Castronuovo, E, Pascali, F, Oreste, P, Giostra, G, Tagliavento, G, Selvaggi, Tm, Caputo, M, Anelli, S, Pomo, V, Arras, P, Cattina, G, Cernigliaro, A, Rizzo, S, Giacchi, M, Lazzeri, G, Cristofori, M, Giaimo, M, Covarino, Am, D'Alessandro, G, Galesso, R, Tamang, Me, and Piffer, S.
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- 2010
20. Strategies for cardiovascular prevention in children [Strategie differenziate nelle popolazioni target: I bambini]
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Spinelli, A, Nardone, P, Lamberti, A, Baglio, G, Gruppo OKkio alla SALUTE 2008, Andreozzi, S, Binkin, N, Bucciarelli, M, Cattaneo, C, Fontana, G, Meucci, S, Perra, A, Galeone, D, Silani, Mt, Mastantuono, E, Teti, S, Censi, L, D'Addesa, D, D'Amicis, A, Ciglia, A, Di Giacomo, M, Cauzillo, G, Sorrentino, G, Fersini, G, La Rocca, M, Perri, G, De Lorenzo, G, Angelini, P, Di Martino, E, Carletti, C, Rincorosi, R, Cairella, G, Castronuovo, E, Pascali, F, Oreste, P, Giostra, G, Tagliavento, G, Selvaggi, Tm, Caputo, M, Anelli, S, Pomo, V, Arras, P, Cattina, G, Cernigliaro, A, Rizzo, S, Giacchi, MARIANO VINCENZO, Lazzeri, Giacomo, Cristofori, M, Giaimo, M, Covarino, Am, D'Alessandro, G, Riccardo, G, Tamang, Me, Piffer, S, Baldi, A, Balducci, Mt, Bilei, S, Callipari, O, De Luca, A, Di Fabio, M, Marrone, A, Mazzarella, G, Silvestri, A, Caroli, M, Cavallo, F, Silvestri, Ar, Spenelli, A, and Spizzichino, L.
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- 2010
21. Surveillance system OKkio alla SALUTE: the role of primary school in the promotion of healthy life style--results in 2008,Il sistema di sorveglianza OKkio alla SALUTE: il ruolo della scuola primaria nella promozione di stili di vita salutari. Risultati 2008
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Lamberti, A., angela spinelli, Baglio, G., Nardone, P., Silani, M. T., Mastantuono, E., Teti, S., Menzano, M. T., and Galeone, D.
22. Clinical, biochemical and genetic spectrum of 70 patients with ACAD9 deficiency: is riboflavin supplementation effective?
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Mastantuono, E., Repp, B., Alston, C. L., Schiff, M., Haack, T. B., Rotig, A., Anna Ardissone, Lombes, A., Catarino, C. B., Diodato, D., Schottmann, G., Poulton, J., Burlina, A., Jonckheere, A., Munnich, A., Ghezzi, D., Rokicki, D., Wellesley, D., Martinelli, D., Lamantea, E., Ostergaard, E., Pronicka, E., Pierre, G., Smeets, H. J., Scurr, I., Coo, I. F., Moroni, I., Smet, J., Mayr, J. A., Meirleir, L., Schuelke, M., Zeviani, M., Mcfarland, R., Seneca, S., Klopstock, T., Meitinger, T., Strom, T. M., Herberg, U., Sperl, W., Nassogne, M., Ling, H., Fang, F., Freisinger, P., Coster, R., Taylor, R. W., Haberle, J., Vockley, J., Prokisch, H., and Wortmann, S.
- Abstract
Section 06: Metabolic and mitochondrial disorders Poster: P06.06B
23. Biallelic C1QBP Mutations Cause Severe Neonatal-, Childhood-, or Later-Onset Cardiomyopathy Associated with Combined Respiratory-Chain Deficiencies
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Feichtinger, RG, Oláhová, M, Kishita, Y, Garone, C, Kremer, LS, Yagi, M, Uchiumi, T, Jourdain, AA, Thompson, K, D'Souza, AR, Kopajtich, R, Alston, CL, Koch, J, Sperl, W, Mastantuono, E, Strom, TM, Wortmann, SB, Meitinger, T, Pierre, G, Chinnery, PF, Chrzanowska-Lightowlers, ZM, Lightowlers, RN, DiMauro, S, Calvo, SE, Mootha, VK, Moggio, M, Sciacco, M, Comi, GP, Ronchi, D, Murayama, K, Ohtake, A, Rebelo-Guiomar, P, Kohda, M, Kang, D, Mayr, JA, Taylor, RW, Okazaki, Y, Minczuk, M, and Prokisch, H
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mitochondria ,lactate ,p32 ,PEO ,oxidative phosphorylation ,MAM33 ,multiple mtDNA deletions ,progressive external ophthalmoplegia ,3. Good health ,myopathy - Abstract
Complement component 1 Q subcomponent-binding protein (C1QBP; also known as p32) is a multi-compartmental protein whose precise function remains unknown. It is an evolutionary conserved multifunctional protein localized primarily in the mitochondrial matrix and has roles in inflammation and infection processes, mitochondrial ribosome biogenesis, and regulation of apoptosis and nuclear transcription. It has an N-terminal mitochondrial targeting peptide that is proteolytically processed after import into the mitochondrial matrix, where it forms a homotrimeric complex organized in a doughnut-shaped structure. Although C1QBP has been reported to exert pleiotropic effects on many cellular processes, we report here four individuals from unrelated families where biallelic mutations in C1QBP cause a defect in mitochondrial energy metabolism. Infants presented with cardiomyopathy accompanied by multisystemic involvement (liver, kidney, and brain), and children and adults presented with myopathy and progressive external ophthalmoplegia. Multiple mitochondrial respiratory-chain defects, associated with the accumulation of multiple deletions of mitochondrial DNA in the later-onset myopathic cases, were identified in all affected individuals. Steady-state C1QBP levels were decreased in all individuals' samples, leading to combined respiratory-chain enzyme deficiency of complexes I, III, and IV. C1qbp(-/-) mouse embryonic fibroblasts (MEFs) resembled the human disease phenotype by showing multiple defects in oxidative phosphorylation (OXPHOS). Complementation with wild-type, but not mutagenized, C1qbp restored OXPHOS protein levels and mitochondrial enzyme activities in C1qbp(-/-) MEFs. C1QBP deficiency represents an important mitochondrial disorder associated with a clinical spectrum ranging from infantile lactic acidosis to childhood (cardio)myopathy and late-onset progressive external ophthalmoplegia.
24. Sequential defects in cardiac lineage commitment and maturation cause hypoplastic left heart syndrome
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Stefanie Sudhop, Harald Lahm, Thomas Brade, Sharon L. Paige, Alexander Goedel, Svenja Laue, Thomas Meitinger, Markus Krane, Stefanie A. Doppler, Alessandra Moretti, Connie R. Bezzina, Pedro Schneider, Zhong Zhang, Makoto Sahara, Neil E. Bowles, Hilansi Rawat, Riccardo Berutti, Nazan Puluca, Ilaria My, Peter J. Gruber, Andreas Dendorfer, Ralf Gilsbach, Nora Lang, M. Dreßen, Christine M. Schneider, S. Schwarz, Daniel Sinnecker, I. Neb, Gianluca Santamaria, Karl-Ludwig Laugwitz, Rüdiger Lange, Sean M. Wu, Bruce D. Gelb, C. Abou-Ajram, Tatjana Dorn, Fleur V.Y. Tjong, Lia Crotti, Maria Rijlaarsdam, Matthias Mann, Christian Kupatt, Lutz Hein, Julie Cleuziou, Elisa Mastantuono, Lesca M. Holdt, Sophia Doll, Bernd H. Northoff, Cardiology, ACS - Heart failure & arrhythmias, Krane, M, Dressen, M, Santamaria, G, My, I, Schneider, C, Dorn, T, Laue, S, Mastantuono, E, Berutti, R, Rawat, H, Gilsbach, R, Schneider, P, Lahm, H, Schwarz, S, Doppler, S, Paige, S, Puluca, N, Doll, S, Neb, I, Brade, T, Zhang, Z, Abou-Ajram, C, Northoff, B, Holdt, L, Sudhop, S, Sahara, M, Goedel, A, Dendorfer, A, Tjong, F, Rijlaarsdam, M, Cleuziou, J, Lang, N, Kupatt, C, Bezzina, C, Lange, R, Bowles, N, Mann, M, Gelb, B, Crotti, L, Hein, L, Meitinger, T, Wu, S, Sinnecker, D, Gruber, P, Laugwitz, K, and Moretti, A
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Organogenesis ,whole exome sequencing ,Hypoplastic left heart syndrome ,Pathogenesis ,Transcriptome ,0302 clinical medicine ,Original Research Articles ,Induced pluripotent stem cell ,Exome sequencing ,0303 health sciences ,Heart development ,Myogenesis ,hypoplastic left heart syndrome ,unfolded protein response ,Cell cycle ,heart defects, congenital ,Hypoplasia ,ddc ,3. Good health ,Autophagy ,Cell Cycle ,Heart Defects, Congenital ,Hypoplastic Left Heart Syndrome ,Induced Pluripotent Stem Cells ,Unfolded Protein Response ,Whole Exome Sequencing ,ComputingMethodologies_DOCUMENTANDTEXTPROCESSING ,Cardiology ,Heart defects ,cell cycle ,medicine.symptom ,Cardiology and Cardiovascular Medicine ,autophagy ,medicine.medical_specialty ,induced pluripotent stem cells ,Ventricular outflow tract obstruction ,Biology ,Genetic Heterogeneity ,03 medical and health sciences ,Physiology (medical) ,Internal medicine ,medicine ,Humans ,030304 developmental biology ,Lineage commitment ,business.industry ,Genetic heterogeneity ,congenital ,Human heart ,medicine.disease ,Unfolded protein response ,Cancer research ,business ,030217 neurology & neurosurgery - Abstract
Supplemental Digital Content is available in the text., Background: Complex molecular programs in specific cell lineages govern human heart development. Hypoplastic left heart syndrome (HLHS) is the most common and severe manifestation within the spectrum of left ventricular outflow tract obstruction defects occurring in association with ventricular hypoplasia. The pathogenesis of HLHS is unknown, but hemodynamic disturbances are assumed to play a prominent role. Methods: To identify perturbations in gene programs controlling ventricular muscle lineage development in HLHS, we performed whole-exome sequencing of 87 HLHS parent–offspring trios, nuclear transcriptomics of cardiomyocytes from ventricles of 4 patients with HLHS and 15 controls at different stages of heart development, single cell RNA sequencing, and 3D modeling in induced pluripotent stem cells from 3 patients with HLHS and 3 controls. Results: Gene set enrichment and protein network analyses of damaging de novo mutations and dysregulated genes from ventricles of patients with HLHS suggested alterations in specific gene programs and cellular processes critical during fetal ventricular cardiogenesis, including cell cycle and cardiomyocyte maturation. Single-cell and 3D modeling with induced pluripotent stem cells demonstrated intrinsic defects in the cell cycle/unfolded protein response/autophagy hub resulting in disrupted differentiation of early cardiac progenitor lineages leading to defective cardiomyocyte subtype differentiation/maturation in HLHS. Premature cell cycle exit of ventricular cardiomyocytes from patients with HLHS prevented normal tissue responses to developmental signals for growth, leading to multinucleation/polyploidy, accumulation of DNA damage, and exacerbated apoptosis, all potential drivers of left ventricular hypoplasia in absence of hemodynamic cues. Conclusions: Our results highlight that despite genetic heterogeneity in HLHS, many mutations converge on sequential cellular processes primarily driving cardiac myogenesis, suggesting novel therapeutic approaches.
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- 2021
25. Clinical, biochemical and genetic spectrum of 70 patients with ACAD9 deficiency: is riboflavin supplementation effective?
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Repp, Birgit M., Mastantuono, Elisa, Alston, Charlotte L., Schiff, Manuel, Haack, Tobias B., Rotig, Agnes, Ardissone, Anna, Lombes, Anne, Catarino, Claudia B., Diodato, Daria, Schottmann, Gudrun, Poulton, Joanna, Burlina, Alberto, Jonckheere, An, Munnich, Arnold, Rolinski, Boris, Ghezzi, Daniele, Rokicki, Dariusz, Wellesley, Diana, Martinelli, Diego, Ding, Wenhong, Lamantea, Eleonora, Ostergaard, Elsebet, Pronicka, Ewa, Pierre, Germaine, Smeets, Hubert J. M., Wittig, Ilka, Scurr, Ingrid, de Coo, Irenaeus F. M., Moroni, Isabella, Smet, Joel, Mayr, Johannes A., Dai, Lifang, de Meirleir, Linda, Schuelke, Markus, Zeviani, Massimo, Morscher, Raphael J., McFarland, Robert, Seneca, Sara, Klopstock, Thomas, Meitinger, Thomas, Wieland, Thomas, Strom, Tim M., Herberg, Ulrike, Ahting, Uwe, Sperl, Wolfgang, Nassogne, Marie-Cecile, Ling, Han, Fang, Fang, Freisinger, Peter, Van Coster, Rudy, Strecker, Valentina, Taylor, Robert W., Haberle, Johannes, Vockley, Jerry, Prokisch, Holger, Wortmann, Saskia, UCL - SSS/IONS - Institute of NeuroScience, UCL - SSS/IONS/NEUR - Clinical Neuroscience, UCL - (SLuc) Service de neurologie pédiatrique, Repp, B, Mastantuono, E, Alston, C, Schiff, M, Haack, T, Rötig, A, Ardissone, A, Lombès, A, Catarino, C, Diodato, D, Schottmann, G, Poulton, J, Burlina, A, Jonckheere, A, Munnich, A, Rolinski, B, Ghezzi, D, Rokicki, D, Wellesley, D, Martinelli, D, Wenhong, D, Lamantea, E, Ostergaard, E, Pronicka, E, Pierre, G, Smeets, H, Wittig, I, Scurr, I, De Coo, I, Moroni, I, Smet, J, Mayr, J, Dai, L, De Meirleir, L, Schuelke, M, Zeviani, M, Morscher, R, Mcfarland, R, Seneca, S, Klopstock, T, Meitinger, T, Wieland, T, Strom, T, Herberg, U, Ahting, U, Sperl, W, Nassogne, M, Ling, H, Fang, F, Freisinger, P, Van Coster, R, Strecker, V, Taylor, R, Häberle, J, Vockley, J, Prokisch, H, Wortmann, S, Apollo - University of Cambridge Repository, Reproduction and Genetics, Neurogenetics, Clinical sciences, Pediatrics, Medical Genetics, Neurology, RS: GROW - R4 - Reproductive and Perinatal Medicine, Klinische Genetica, and RS: FHML MaCSBio
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Electron Transport Complex I/metabolism ,Male ,Mitochondrial Diseases ,genetics [Mitochondrial Diseases] ,PHENOTYPIC SPECTRUM ,Riboflavin ,therapeutic use [Riboflavin] ,lcsh:Medicine ,Acidosis/genetics ,Heart transplantation ,OXIDATION ,Acyl-CoA Dehydrogenase ,drug therapy [Muscle Weakness] ,Neonatal ,Activities Of Daily Living ,Cardiomyopathy ,Complex I ,Heart Transplantation ,Lactic Acidosis ,Mitochondrial Disorder ,Prognosis ,Treatment ,Vitamin ,Activities of Daily Living ,Medicine and Health Sciences ,Genetics(clinical) ,Pharmacology (medical) ,Amino Acid Metabolism, Inborn Errors/genetics ,Genetics (clinical) ,Cardiomyopathy, Hypertrophic/genetics ,Muscle Weakness ,genetics [Cardiomyopathy, Hypertrophic] ,Lactic acidosis ,Inborn Errors ,Activities of daily living ,Riboflavin/therapeutic use ,Mitochondrial disorder ,metabolism [Acidosis] ,Lactic acidosi ,metabolism [Mitochondrial Diseases] ,Acidosis ,Amino Acid Metabolism, Inborn Errors ,Cardiomyopathy, Hypertrophic ,Electron Transport Complex I ,Female ,Humans ,genetics [Muscle Weakness] ,SKELETAL-MUSCLE ,pathology [Cardiomyopathy, Hypertrophic] ,pathology [Amino Acid Metabolism, Inborn Errors] ,DISORDERS ,Prognosi ,metabolism [Cardiomyopathy, Hypertrophic] ,pathology [Acidosis] ,Mitochondrial Diseases/genetics ,DIAGNOSIS ,metabolism [Acyl-CoA Dehydrogenase] ,Muscle Weakness/drug therapy ,genetics [Amino Acid Metabolism, Inborn Errors] ,ddc:610 ,metabolism [Electron Transport Complex I] ,pathology [Muscle Weakness] ,MUTATIONS ,deficiency [Acyl-CoA Dehydrogenase] ,Research ,lcsh:R ,Biology and Life Sciences ,metabolism [Muscle Weakness] ,BEZAFIBRATE ,Acyl-CoA Dehydrogenase/deficiency ,metabolism [Amino Acid Metabolism, Inborn Errors] ,PAGE ,Amino Acid Metabolism ,pathology [Mitochondrial Diseases] ,Hypertrophic ,CELLS ,COMPLEX-I DEFICIENCY ,genetics [Acidosis] ,Human medicine ,genetics [Acyl-CoA Dehydrogenase] - Abstract
Background Mitochondrial acyl-CoA dehydrogenase family member 9 (ACAD9) is essential for the assembly of mitochondrial respiratory chain complex I. Disease causing biallelic variants in ACAD9 have been reported in individuals presenting with lactic acidosis and cardiomyopathy. Results We describe the genetic, clinical and biochemical findings in a cohort of 70 patients, of whom 29 previously unpublished. We found 34 known and 18 previously unreported variants in ACAD9. No patients harbored biallelic loss of function mutations, indicating that this combination is unlikely to be compatible with life. Causal pathogenic variants were distributed throughout the entire gene, and there was no obvious genotype-phenotype correlation. Most of the patients presented in the first year of life. For this subgroup the survival was poor (50% not surviving the first 2 years) comparing to patients with a later presentation (more than 90% surviving 10 years). The most common clinical findings were cardiomyopathy (85%), muscular weakness (75%) and exercise intolerance (72%). Interestingly, severe intellectual deficits were only reported in one patient and severe developmental delays in four patients. More than 70% of the patients were able to perform the same activities of daily living when compared to peers. Conclusions Our data show that riboflavin treatment improves complex I activity in the majority of patient-derived fibroblasts tested. This effect was also reported for most of the treated patients and is mirrored in the survival data. In the patient group with disease-onset below 1 year of age, we observed a statistically-significant better survival for patients treated with riboflavin. Electronic supplementary material The online version of this article (10.1186/s13023-018-0784-8) contains supplementary material, which is available to authorized users.
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- 2017
26. Identification of Cadherin 2 (CDH2) Mutations in Arrhythmogenic Right Ventricular Cardiomyopathy
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Nakita Laing, Simon N. Pimstone, Thomas Meitinger, Ashley Chin, Ntobeko B A Ntusi, Tim Matthias Strom, Thomas Wieland, Maryam Fish, Maria Christina Kotta, Gasnat Shaboodien, Sarah Kraus, Peter J. Schwartz, Bongani M. Mayosi, Davide Gentilini, Gianfranco Parati, Guillaume Paré, Elisa Mastantuono, Lia Crotti, Christopher Horsfall, Michael Chong, Mayosi, B, Fish, M, Shaboodien, G, Mastantuono, E, Kraus, S, Wieland, T, Kotta, M, Chin, A, Laing, N, Ntusi, N, Chong, M, Horsfall, C, Pimstone, S, Gentilini, D, Parati, G, Strom, T, Meitinger, T, Pare, G, Schwartz, P, and Crotti, L
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0301 basic medicine ,arrhythmogenic right ventricular dysplasia ,Adult ,Male ,Pathology ,medicine.medical_specialty ,Adolescent ,MED/03 - GENETICA MEDICA ,Mutation, Missense ,030204 cardiovascular system & hematology ,Biology ,medicine.disease_cause ,CDH2 ,Right ventricular cardiomyopathy ,03 medical and health sciences ,0302 clinical medicine ,Genetic ,Antigens, CD ,Genetics ,medicine ,Exome ,Exome sequencing ,Genetics (clinical) ,Mutation ,cardiomyopathie ,Arrhythmogenic Right Ventricular Dysplasia ,Cadherins ,Cardiomyopathies ,Genetic heterogeneity ,Cadherin ,MED/11 - MALATTIE DELL'APPARATO CARDIOVASCOLARE ,medicine.disease ,Molecular biology ,Arrhythmogenic right ventricular dysplasia ,030104 developmental biology ,cadherin ,Amino Acid Substitution ,Female ,mutation ,Cardiology and Cardiovascular Medicine ,Human - Abstract
Background— Arrhythmogenic right ventricular cardiomyopathy (ARVC) is a genetically heterogeneous condition caused by mutations in genes encoding desmosomal proteins in up to 60% of cases. The 40% of genotype-negative cases point to the need of identifying novel genetic substrates by studying genotype-negative ARVC families. Methods and Results— Whole exome sequencing was performed on 2 cousins with ARVC. Validation of 13 heterozygous variants that survived internal quality and frequency filters was performed by Sanger sequencing. These variants were also genotyped in all family members to establish genotype–phenotype cosegregation. High-resolution melting analysis followed by Sanger sequencing was used to screen for mutations in cadherin 2 ( CDH2 ) gene in unrelated genotype-negative patients with ARVC. In a 3-generation family, we identified by whole exome sequencing a novel mutation in CDH2 (c.686A>C, p.Gln229Pro) that cosegregated with ARVC in affected family members. The CDH2 c.686A>C variant was not present in >200 000 chromosomes available through public databases, which changes a conserved amino acid of cadherin 2 protein and is supported as the causal mutation by parametric linkage analysis. We subsequently screened 73 genotype-negative ARVC probands tested previously for mutations in known ARVC genes and found an additional likely pathogenic variant in CDH2 (c.1219G>A, p.Asp407Asn). CDH2 encodes cadherin 2 (also known as N-cadherin), a protein that plays a vital role in cell adhesion, making it a biologically plausible candidate gene in ARVC pathogenesis. Conclusions— These data implicate CDH2 mutations as novel genetic causes of ARVC and contribute to a more complete identification of disease genes involved in cardiomyopathy.
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- 2017
27. Response by Crotti et al to Letter Regarding Article, 'genetic Modifiers for the Long-QT Syndrome: How Important Is the Role of Variants in the 3′ Untranslated Region of KCNQ1?'
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Carla Spazzolini, Thomas Meitinger, Althea Goosen, Marshall Heradien, Gianfranco Parati, Peter J. Schwartz, Caterina Morassutto, Paul A. Brink, Elisa Mastantuono, Heikki Swan, Annukka M. Lahtinen, Peter Lichtner, Kimmo Kontula, Mari Cristina A Monti, Lia Crotti, Crotti, L, Lahtinen, A, Spazzolini, C, Mastantuono, E, Monti, M, Morassutto, C, Parati, G, Heradien, M, Goosen, A, Lichtner, P, Meitinger, T, Brink, P, Kontula, K, Swan, H, and Schwartz, P
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0301 basic medicine ,Untranslated region ,Long QT syndrome ,Population ,Single-nucleotide polymorphism ,BIO/18 - GENETICA ,030204 cardiovascular system & hematology ,Biology ,medicine.disease_cause ,03 medical and health sciences ,0302 clinical medicine ,Genetic ,Genetics ,medicine ,long QT syndrome ,education ,Genetics (clinical) ,Mutation ,education.field_of_study ,genetic modifier ,KCNQ1 ,Three prime untranslated region ,MED/11 - MALATTIE DELL'APPARATO CARDIOVASCOLARE ,medicine.disease ,030104 developmental biology ,Haploinsufficiency ,Cardiology and Cardiovascular Medicine - Abstract
We welcome the opportunity to respond to the expected comments by Amin et al regarding our article on the modifying role of 3′ untranslated region (3′UTR) single-nucleotide polymorphisms (SNPs) in type 1 long-QT syndrome patients.1 In the original cohort studied by Amin et al,2 the analysis of 3 small families supported the modifying role of 3′UTR SNPs. Amin et al now propose, as a possible reason for the different results, the predominance of haploinsufficient type 1 long-QT syndrome–causative mutations in our population. However, in our 3 founder families, 2 ( KCNQ1 A341V and also KCNQ1 IVS7-2A>G) of the 3 mutations have a dominant-negative effect,3,4 and only 1 ( KCNQ1 -G589D) reduces the ability of the mutated proteins to form functional tetramers leading to haploinsufficiency.5 This is exactly the same pattern of their 3 families: 2 have a dominant-negative effect …
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- 2016
28. Genetic Modifiers for the Long-QT Syndrome: How Important Is the Role of Variants in the 3′ Untranslated Region of KCNQ1?
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Lia Crotti, Althea Goosen, Heikki Swan, Paul A. Brink, Marshall Heradien, Kimmo Kontula, Elisa Mastantuono, Peter J. Schwartz, Caterina Morassutto, Gianfranco Parati, Annukka M. Lahtinen, Thomas Meitinger, Maria Cristina Monti, Peter Lichtner, Carla Spazzolini, Crotti, L, Lahtinen, A, Spazzolini, C, Mastantuono, E, Monti, M, Morassutto, C, Parati, G, Heradien, M, Goosen, A, Lichtner, P, Meitinger, T, Brink, P, Kontula, K, Swan, H, and Schwartz, P
- Subjects
Male ,0301 basic medicine ,Heredity ,Romano-Ward Syndrome ,Long QT syndrome ,Population ,Single-nucleotide polymorphism ,BIO/18 - GENETICA ,030204 cardiovascular system & hematology ,Biology ,Bioinformatics ,arrhythmia ,Polymorphism, Single Nucleotide ,Severity of Illness Index ,QT interval ,Linkage Disequilibrium ,untranslated region ,South Africa ,03 medical and health sciences ,0302 clinical medicine ,Gene Frequency ,Risk Factors ,medicine ,Genetics ,Humans ,SNP ,Genetic Predisposition to Disease ,education ,3' Untranslated Regions ,Allele frequency ,Genetic Association Studies ,Genetics (clinical) ,MED/01 - STATISTICA MEDICA ,education.field_of_study ,Haplotype ,MED/11 - MALATTIE DELL'APPARATO CARDIOVASCOLARE ,medicine.disease ,Pedigree ,long-QT syndrome ,Europe ,Phenotype ,030104 developmental biology ,KCNQ1 potassium channel ,Haplotypes ,genes, modifier ,Mutation (genetic algorithm) ,Female ,Cardiology and Cardiovascular Medicine - Abstract
Background— Long-QT syndrome is an inherited cardiac channelopathy characterized by delayed repolarization, risk of life-threatening arrhythmia, and significant clinical variability even within families. Three single-nucleotide polymorphisms (SNPs) in the 3′ untranslated region of KCNQ1 were recently suggested to be associated with suppressed gene expression and hence decreased disease severity when located on the same haplotype with a disease-causing KCNQ1 mutation. We sought to replicate this finding in a larger and a genetically more homogeneous population of KCNQ1 mutation carriers. Methods and Results— The 3 SNPs (rs2519184, rs8234, and rs10798) were genotyped in a total of 747 KCNQ1 mutation carriers with A341V, G589D, or IVS7-2A>G mutation. The SNP haplotypes were assigned based on family trees. The SNP allele frequencies and clinical severity differed between the 3 mutation groups. The different SNP haplotypes were neither associated with heart rate–corrected QT interval duration (QTc) nor cardiac events in any of the 3 mutation groups. When the mutation groups were combined, the derived SNP haplotype of rs8234 and rs10798 located on the same haplotype with the mutation was associated with a shorter QTc interval ( P P Conclusions— 3′ Untranslated region SNPs are not acting as genetic modifiers in a large group of LQT1 patients. The confounding effect of merging a genetically and clinically heterogeneous group of patients needs to be taken into account when studying disease modifiers.
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- 2016
29. The genetics underlying acquired long QT syndrome: impact for genetic screening
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Yoshitaka Murakami, Tadashi Nakajima, Myriam Berthet, Carla Spazzolini, Isabelle Denjoy, Jie Wu, Elisa Mastantuono, Kenshi Hayashi, Federica Dagradi, Kanae Hasegawa, Seiko Ohno, Matteo Pedrazzini, Takeshi Aiba, Pascale Guicheney, Minoru Horie, Hideki Itoh, Véronique Fressart, Wataru Shimizu, Masakazu Yamagishi, Takeru Makiyama, Lia Crotti, Peter J. Schwartz, Itoh, H, Crotti, L, Aiba, T, Spazzolini, C, Denjoy, I, Fressart, V, Hayashi, K, Nakajima, T, Ohno, S, Makiyama, T, Wu, J, Hasegawa, K, Mastantuono, E, Dagradi, F, Pedrazzini, M, Yamagishi, M, Berthet, M, Murakami, Y, Shimizu, W, Guicheney, P, Schwartz, P, and Horie, M
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Proband ,Male ,congenital, hereditary, and neonatal diseases and abnormalities ,cascade screening ,MED/03 - GENETICA MEDICA ,Long QT syndrome ,hERG ,Torsades de pointes ,030204 cardiovascular system & hematology ,Ventricular tachycardia ,QT interval ,Acquired Long Qt Syndrome ,Congenital Long Qt Syndrome ,Drug-induced Long Qt Syndrome ,Genetics ,03 medical and health sciences ,Electrocardiography ,0302 clinical medicine ,Japan ,Clinical Research ,medicine ,Humans ,KvLQT1 ,cardiovascular diseases ,Genetic Testing ,Genetic testing ,biology ,medicine.diagnostic_test ,business.industry ,family members ,MED/11 - MALATTIE DELL'APPARATO CARDIOVASCOLARE ,Middle Aged ,medicine.disease ,acquired long qt syndrome ,Long QT Syndrome ,disease causing mutation ,Italy ,Mutation ,biology.protein ,Female ,France ,genetic ,Cardiology and Cardiovascular Medicine ,business ,030217 neurology & neurosurgery - Abstract
AIMS: Acquired long QT syndrome (aLQTS) exhibits QT prolongation and Torsades de Pointes ventricular tachycardia triggered by drugs, hypokalaemia, or bradycardia. Sometimes, QTc remains prolonged despite elimination of triggers, suggesting the presence of an underlying genetic substrate. In aLQTS subjects, we assessed the prevalence of mutations in major LQTS genes and their probability of being carriers of a disease-causing genetic variant based on clinical factors. METHODS AND RESULTS: We screened for the five major LQTS genes among 188 aLQTS probands (55 ± 20 years, 140 females) from Japan, France, and Italy. Based on control QTc (without triggers), subjects were designated 'true aLQTS' (QTc within normal limits) or 'unmasked cLQTS' (all others) and compared for QTc and genetics with 2379 members of 1010 genotyped congenital long QT syndrome (cLQTS) families. Cardiac symptoms were present in 86% of aLQTS subjects. Control QTc of aLQTS was 453 ± 39 ms, shorter than in cLQTS (478 ± 46 ms, P < 0.001) and longer than in non-carriers (406 ± 26 ms, P < 0.001). In 53 (28%) aLQTS subjects, 47 disease-causing mutations were identified. Compared with cLQTS, in 'true aLQTS', KCNQ1 mutations were much less frequent than KCNH2 (20% [95% CI 7-41%] vs. 64% [95% CI 43-82%], P < 0.01). A clinical score based on control QTc, age, and symptoms allowed identification of patients more likely to carry LQTS mutations. CONCLUSION: A third of aLQTS patients carry cLQTS mutations, those on KCNH2 being more common. The probability of being a carrier of cLQTS disease-causing mutations can be predicted by simple clinical parameters, thus allowing possibly cost-effective genetic testing leading to cascade screening for identification of additional at-risk family members.
- Published
- 2015
30. Novel calmodulin mutations associated with congenital arrhythmia susceptibility
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Wataru Satake, Christopher N. Johnson, Hirokazu Yamamoto, Yoshihiro Miyamoto, Stefan Kääb, Michelle S. Roh, Pascale Guicheney, Hideki Motomura, Naoto Endo, Tessa Homfray, Naomasa Makita, Takeshi Tsuchiya, Kenji Suda, Didier Klug, Taisuke Ishikawa, Tatsushi Toda, Wataru Shimizu, Takeshi Aiba, Tatsuhiko Tsunoda, Hidewaki Nakagawa, Thomas Meitinger, Toshihiro Tanaka, Walter J. Chazin, Kouichi Ozaki, Lia Crotti, Daniel Theisen, Peter J. Schwartz, Hiroshi Watanabe, Yukiomi Tsuji, Alfred L. George, Elisa Mastantuono, Britt M. Beckmann, Isabelle Denjoy, Peter Lichtner, Daichi Shigemizu, Nobue Yagihara, Akinori Kimura, Zahurul A. Bhuiyan, Elijah R. Behr, Makita, N, Yagihara, N, Crotti, L, Johnson, C, Beckmann, B, Roh, M, Shigemizu, D, Lichtner, P, Ishikawa, T, Aiba, T, Homfray, T, Behr, E, Klug, D, Denjoy, I, Mastantuono, E, Theisen, D, Tsunoda, T, Satake, W, Toda, T, Nakagawa, H, Tsuji, Y, Tsuchiya, T, Yamamoto, H, Miyamoto, Y, Endo, N, Kimura, A, Ozaki, K, Motomura, H, Suda, K, Tanaka, T, Schwartz, P, Meitinger, T, Kääb, S, Guicheney, P, Shimizu, W, Bhuiyan, Z, Watanabe, H, Chazin, W, and George, A
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Proband ,Adult ,Male ,medicine.medical_specialty ,congenital, hereditary, and neonatal diseases and abnormalities ,MED/03 - GENETICA MEDICA ,Long QT syndrome ,Adrenergic beta-Antagonists ,Molecular Sequence Data ,Mutation, Missense ,Biology ,medicine.disease_cause ,Catecholaminergic polymorphic ventricular tachycardia ,Article ,Sudden cardiac death ,Electrocardiography ,Calmodulin ,Internal medicine ,Genetics ,medicine ,Missense mutation ,Humans ,Genetic Predisposition to Disease ,cardiovascular diseases ,Amino Acid Sequence ,Age of Onset ,Child ,Exome ,Genetics (clinical) ,Mutation ,High-Throughput Nucleotide Sequencing ,Infant ,MED/11 - MALATTIE DELL'APPARATO CARDIOVASCOLARE ,Sequence Analysis, DNA ,medicine.disease ,Pedigree ,Long QT Syndrome ,Endocrinology ,Child, Preschool ,Cardiology ,Tachycardia, Ventricular ,Calcium ,Female ,Age of onset ,Cardiology and Cardiovascular Medicine ,Protein Binding - Abstract
Background—Genetic predisposition to life-threatening cardiac arrhythmias such as congenital long-QT syndrome (LQTS) and catecholaminergic polymorphic ventricular tachycardia (CPVT) represent treatable causes of sudden cardiac death in young adults and children. Recently, mutations in calmodulin (CALM1,CALM2) have been associated with severe forms of LQTS and CPVT, with life-threatening arrhythmias occurring very early in life. Additional mutation-positive cases are needed to discern genotype–phenotype correlations associated with calmodulin mutations.Methods and Results—We used conventional and next-generation sequencing approaches, including exome analysis, in genotype-negative LQTS probands. We identified 5 novel de novo missense mutations inCALM2in 3 subjects with LQTS (p.N98S, p.N98I, p.D134H) and 2 subjects with clinical features of both LQTS and CPVT (p.D132E, p.Q136P). Age of onset of major symptoms (syncope or cardiac arrest) ranged from 1 to 9 years. Three of 5 probands had cardiac arrest and 1 of these subjects did not survive. The clinical severity among subjects in this series was generally less than that originally reported forCALM1andCALM2associated with recurrent cardiac arrest during infancy. Four of 5 probands responded to β-blocker therapy, whereas 1 subject with mutation p.Q136P died suddenly during exertion despite this treatment. Mutations affect conserved residues located within Ca2+-binding loops III (p.N98S, p.N98I) or IV (p.D132E, p.D134H, p.Q136P) and caused reduced Ca2+-binding affinity.Conclusions—CALM2mutations can be associated with LQTS and with overlapping features of LQTS and CPVT.
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- 2014
31. There is more to it than just congenital heart defects - The phenotypic spectrum of TAB2-related syndrome.
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Westphal DS, Mastantuono E, Seidel H, Riedhammer KM, Hahn A, Vill K, and Wagner M
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- Adolescent, Adult, Aged, Child, Female, Humans, Male, Middle Aged, Penetrance, Phenotype, Retrospective Studies, Syndrome, Exome Sequencing, Young Adult, Abnormalities, Multiple genetics, Adaptor Proteins, Signal Transducing genetics, Heart Defects, Congenital genetics
- Abstract
Background: Congenital heart defects (CHD) are the most common birth defect and disease-causing variant in TAB2 have found to be associated with isolated CHD. Recently, it became evident that pathogenic, mostly loss-of-function variants in TAB2 can also cause syndromic CHD that includes connective tissue anomalies. The number of published cases is limited posing a challenge for counseling affected patients and their relatives., Methods: Cases in whom whole exome sequencing was executed at our institute between January 2015 and June 2021 were screened for disease-causing variants in TAB2. Additionally, a PubMed-based review of the literature was performed in December 2021 in order to give an updated clinical overview of the TAB2-associated phenotypic spectrum, including our cases., Results: We identified three cases with syndromic CHD caused by different heterozygous loss-of-function variants in TAB2. In one of these cases, the variant was inherited by a healthy father. A comparison with published cases highlights that most patients were affected by structural and/or arrhythmic heart disease (about 90%) while about two third of all cases had syndromic comorbidity especially connective tissue defects and dysmorphic abnormalities., Conclusion: Our findings indicate a variable expressivity as well as reduced penetrance of TAB2-associated CHD. Disease-causing variants in TAB2 should be considered in cases with isolated CHD but also in syndromic CHD with connective tissue abnormalities. However, prediction of the patients' clinical outcome solely based on the variant in TAB2 is still extremely challenging., (Copyright © 2022 Elsevier B.V. All rights reserved.)
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- 2022
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32. Cell cycle defects underlie childhood-onset cardiomyopathy associated with Noonan syndrome.
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Meier AB, Raj Murthi S, Rawat H, Toepfer CN, Santamaria G, Schmid M, Mastantuono E, Schwarzmayr T, Berutti R, Cleuziou J, Ewert P, Görlach A, Klingel K, Laugwitz KL, Seidman CE, Seidman JG, Moretti A, and Wolf CM
- Abstract
Childhood-onset myocardial hypertrophy and cardiomyopathic changes are associated with significant morbidity and mortality in early life, particularly in patients with Noonan syndrome, a multisystemic genetic disorder caused by autosomal dominant mutations in genes of the Ras-MAPK pathway. Although the cardiomyopathy associated with Noonan syndrome (NS-CM) shares certain cardiac features with the hypertrophic cardiomyopathy caused by mutations in sarcomeric proteins (HCM), such as pathological myocardial remodeling, ventricular dysfunction, and increased risk for malignant arrhythmias, the clinical course of NS-CM significantly differs from HCM. This suggests a distinct pathophysiology that remains to be elucidated. Here, through analysis of sarcomeric myosin conformational states, histopathology, and gene expression in left ventricular myocardial tissue from NS-CM, HCM, and normal hearts complemented with disease modeling in cardiomyocytes differentiated from patient-derived PTPN11
N308S/+ induced pluripotent stem cells, we demonstrate distinct disease phenotypes between NS-CM and HCM and uncover cell cycle defects as a potential driver of NS-CM., Competing Interests: Dr. Wolf is a consultant for Day One Therapeutics. All other authors declare no competing interests., (© 2021 The Authors.)- Published
- 2021
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33. Sequential Defects in Cardiac Lineage Commitment and Maturation Cause Hypoplastic Left Heart Syndrome.
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Krane M, Dreßen M, Santamaria G, My I, Schneider CM, Dorn T, Laue S, Mastantuono E, Berutti R, Rawat H, Gilsbach R, Schneider P, Lahm H, Schwarz S, Doppler SA, Paige S, Puluca N, Doll S, Neb I, Brade T, Zhang Z, Abou-Ajram C, Northoff B, Holdt LM, Sudhop S, Sahara M, Goedel A, Dendorfer A, Tjong FVY, Rijlaarsdam ME, Cleuziou J, Lang N, Kupatt C, Bezzina C, Lange R, Bowles NE, Mann M, Gelb BD, Crotti L, Hein L, Meitinger T, Wu S, Sinnecker D, Gruber PJ, Laugwitz KL, and Moretti A
- Subjects
- Genetic Heterogeneity, Humans, Hypoplastic Left Heart Syndrome genetics, Organogenesis genetics
- Abstract
Background: Complex molecular programs in specific cell lineages govern human heart development. Hypoplastic left heart syndrome (HLHS) is the most common and severe manifestation within the spectrum of left ventricular outflow tract obstruction defects occurring in association with ventricular hypoplasia. The pathogenesis of HLHS is unknown, but hemodynamic disturbances are assumed to play a prominent role., Methods: To identify perturbations in gene programs controlling ventricular muscle lineage development in HLHS, we performed whole-exome sequencing of 87 HLHS parent-offspring trios, nuclear transcriptomics of cardiomyocytes from ventricles of 4 patients with HLHS and 15 controls at different stages of heart development, single cell RNA sequencing, and 3D modeling in induced pluripotent stem cells from 3 patients with HLHS and 3 controls., Results: Gene set enrichment and protein network analyses of damaging de novo mutations and dysregulated genes from ventricles of patients with HLHS suggested alterations in specific gene programs and cellular processes critical during fetal ventricular cardiogenesis, including cell cycle and cardiomyocyte maturation. Single-cell and 3D modeling with induced pluripotent stem cells demonstrated intrinsic defects in the cell cycle/unfolded protein response/autophagy hub resulting in disrupted differentiation of early cardiac progenitor lineages leading to defective cardiomyocyte subtype differentiation/maturation in HLHS. Premature cell cycle exit of ventricular cardiomyocytes from patients with HLHS prevented normal tissue responses to developmental signals for growth, leading to multinucleation/polyploidy, accumulation of DNA damage, and exacerbated apoptosis, all potential drivers of left ventricular hypoplasia in absence of hemodynamic cues., Conclusions: Our results highlight that despite genetic heterogeneity in HLHS, many mutations converge on sequential cellular processes primarily driving cardiac myogenesis, suggesting novel therapeutic approaches.
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- 2021
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34. Congenital heart disease risk loci identified by genome-wide association study in European patients.
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Lahm H, Jia M, Dreßen M, Wirth F, Puluca N, Gilsbach R, Keavney BD, Cleuziou J, Beck N, Bondareva O, Dzilic E, Burri M, König KC, Ziegelmüller JA, Abou-Ajram C, Neb I, Zhang Z, Doppler SA, Mastantuono E, Lichtner P, Eckstein G, Hörer J, Ewert P, Priest JR, Hein L, Lange R, Meitinger T, Cordell HJ, Müller-Myhsok B, and Krane M
- Subjects
- Adolescent, Adult, Animals, Female, Genome-Wide Association Study, Germany epidemiology, Heart Defects, Congenital epidemiology, Humans, Male, Mice, Risk Factors, Genetic Loci, Heart Defects, Congenital genetics, Polymorphism, Single Nucleotide
- Abstract
Genetic factors undoubtedly affect the development of congenital heart disease (CHD) but still remain ill defined. We sought to identify genetic risk factors associated with CHD and to accomplish a functional analysis of SNP-carrying genes. We performed a genome-wide association study (GWAS) of 4034 White patients with CHD and 8486 healthy controls. One SNP on chromosome 5q22.2 reached genome-wide significance across all CHD phenotypes and was also indicative for septal defects. One region on chromosome 20p12.1 pointing to the MACROD2 locus identified 4 highly significant SNPs in patients with transposition of the great arteries (TGA). Three highly significant risk variants on chromosome 17q21.32 within the GOSR2 locus were detected in patients with anomalies of thoracic arteries and veins (ATAV). Genetic variants associated with ATAV are suggested to influence the expression of WNT3, and the variant rs870142 related to septal defects is proposed to influence the expression of MSX1. We analyzed the expression of all 4 genes during cardiac differentiation of human and murine induced pluripotent stem cells in vitro and by single-cell RNA-Seq analyses of developing murine and human hearts. Our data show that MACROD2, GOSR2, WNT3, and MSX1 play an essential functional role in heart development at the embryonic and newborn stages.
- Published
- 2021
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35. A Homozygous Splice Site Mutation in SLC25A42, Encoding the Mitochondrial Transporter of Coenzyme A, Causes Metabolic Crises and Epileptic Encephalopathy.
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Iuso A, Alhaddad B, Weigel C, Kotzaeridou U, Mastantuono E, Schwarzmayr T, Graf E, Terrile C, Prokisch H, Strom TM, Hoffmann GF, Meitinger T, and Haack TB
- Abstract
SLC25A42 is an inner mitochondrial membrane protein which has been shown to transport coenzyme A through a lipid bilayer in vitro. A homozygous missense variant in this gene has been recently reported in 13 subjects of Arab descent presenting with mitochondriopathy with variable clinical manifestations. By exome sequencing, we identified two additional individuals carrying rare variants in this gene. One subject was found to carry the previously reported missense variant in homozygous state, while the second subject carried a homozygous canonical splice site variant resulting in a splice defect. With the identification of two additional cases, we corroborate the association between rare variants in SLC25A42 and a clinical presentation characterized by myopathy, developmental delay, lactic acidosis, and encephalopathy. Furthermore, we highlight the biochemical consequences of the splice defect by measuring a mild decrease of coenzyme A content in SLC25A42-mutant fibroblasts.
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- 2019
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36. Clinical, biochemical and genetic spectrum of 70 patients with ACAD9 deficiency: is riboflavin supplementation effective?
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Repp BM, Mastantuono E, Alston CL, Schiff M, Haack TB, Rötig A, Ardissone A, Lombès A, Catarino CB, Diodato D, Schottmann G, Poulton J, Burlina A, Jonckheere A, Munnich A, Rolinski B, Ghezzi D, Rokicki D, Wellesley D, Martinelli D, Wenhong D, Lamantea E, Ostergaard E, Pronicka E, Pierre G, Smeets HJM, Wittig I, Scurr I, de Coo IFM, Moroni I, Smet J, Mayr JA, Dai L, de Meirleir L, Schuelke M, Zeviani M, Morscher RJ, McFarland R, Seneca S, Klopstock T, Meitinger T, Wieland T, Strom TM, Herberg U, Ahting U, Sperl W, Nassogne MC, Ling H, Fang F, Freisinger P, Van Coster R, Strecker V, Taylor RW, Häberle J, Vockley J, Prokisch H, and Wortmann S
- Subjects
- Acidosis pathology, Activities of Daily Living, Acyl-CoA Dehydrogenase genetics, Acyl-CoA Dehydrogenase metabolism, Amino Acid Metabolism, Inborn Errors pathology, Cardiomyopathy, Hypertrophic pathology, Electron Transport Complex I metabolism, Female, Humans, Male, Mitochondrial Diseases pathology, Muscle Weakness drug therapy, Muscle Weakness pathology, Prognosis, Acidosis genetics, Acidosis metabolism, Acyl-CoA Dehydrogenase deficiency, Amino Acid Metabolism, Inborn Errors genetics, Amino Acid Metabolism, Inborn Errors metabolism, Cardiomyopathy, Hypertrophic genetics, Cardiomyopathy, Hypertrophic metabolism, Mitochondrial Diseases genetics, Mitochondrial Diseases metabolism, Muscle Weakness genetics, Muscle Weakness metabolism, Riboflavin therapeutic use
- Abstract
Background: Mitochondrial acyl-CoA dehydrogenase family member 9 (ACAD9) is essential for the assembly of mitochondrial respiratory chain complex I. Disease causing biallelic variants in ACAD9 have been reported in individuals presenting with lactic acidosis and cardiomyopathy., Results: We describe the genetic, clinical and biochemical findings in a cohort of 70 patients, of whom 29 previously unpublished. We found 34 known and 18 previously unreported variants in ACAD9. No patients harbored biallelic loss of function mutations, indicating that this combination is unlikely to be compatible with life. Causal pathogenic variants were distributed throughout the entire gene, and there was no obvious genotype-phenotype correlation. Most of the patients presented in the first year of life. For this subgroup the survival was poor (50% not surviving the first 2 years) comparing to patients with a later presentation (more than 90% surviving 10 years). The most common clinical findings were cardiomyopathy (85%), muscular weakness (75%) and exercise intolerance (72%). Interestingly, severe intellectual deficits were only reported in one patient and severe developmental delays in four patients. More than 70% of the patients were able to perform the same activities of daily living when compared to peers., Conclusions: Our data show that riboflavin treatment improves complex I activity in the majority of patient-derived fibroblasts tested. This effect was also reported for most of the treated patients and is mirrored in the survival data. In the patient group with disease-onset below 1 year of age, we observed a statistically-significant better survival for patients treated with riboflavin.
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- 2018
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37. Interplay of cell-cell contacts and RhoA/MRTF-A signaling regulates cardiomyocyte identity.
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Dorn T, Kornherr J, Parrotta EI, Zawada D, Ayetey H, Santamaria G, Iop L, Mastantuono E, Sinnecker D, Goedel A, Dirschinger RJ, My I, Laue S, Bozoglu T, Baarlink C, Ziegler T, Graf E, Hinkel R, Cuda G, Kääb S, Grace AA, Grosse R, Kupatt C, Meitinger T, Smith AG, Laugwitz KL, and Moretti A
- Subjects
- Adipogenesis, Animals, Cell Differentiation, Gene Expression Regulation, Humans, LIM-Homeodomain Proteins biosynthesis, Mice, Mice, SCID, Myocytes, Cardiac cytology, Trans-Activators genetics, Transcription Factors biosynthesis, WT1 Proteins biosynthesis, rhoA GTP-Binding Protein genetics, Cell Communication, Mechanotransduction, Cellular, Myocytes, Cardiac metabolism, Trans-Activators metabolism, rhoA GTP-Binding Protein metabolism
- Abstract
Cell-cell and cell-matrix interactions guide organ development and homeostasis by controlling lineage specification and maintenance, but the underlying molecular principles are largely unknown. Here, we show that in human developing cardiomyocytes cell-cell contacts at the intercalated disk connect to remodeling of the actin cytoskeleton by regulating the RhoA-ROCK signaling to maintain an active MRTF/SRF transcriptional program essential for cardiomyocyte identity. Genetic perturbation of this mechanosensory pathway activates an ectopic fat gene program during cardiomyocyte differentiation, which ultimately primes the cells to switch to the brown/beige adipocyte lineage in response to adipogenesis-inducing signals. We also demonstrate by in vivo fate mapping and clonal analysis of cardiac progenitors that cardiac fat and a subset of cardiac muscle arise from a common precursor expressing Isl1 and Wt1 during heart development, suggesting related mechanisms of determination between the two lineages., (© 2018 The Authors. Published under the terms of the CC BY 4.0 license.)
- Published
- 2018
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38. Mutations in PPCS, Encoding Phosphopantothenoylcysteine Synthetase, Cause Autosomal-Recessive Dilated Cardiomyopathy.
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Iuso A, Wiersma M, Schüller HJ, Pode-Shakked B, Marek-Yagel D, Grigat M, Schwarzmayr T, Berutti R, Alhaddad B, Kanon B, Grzeschik NA, Okun JG, Perles Z, Salem Y, Barel O, Vardi A, Rubinshtein M, Tirosh T, Dubnov-Raz G, Messias AC, Terrile C, Barshack I, Volkov A, Avivi C, Eyal E, Mastantuono E, Kumbar M, Abudi S, Braunisch M, Strom TM, Meitinger T, Hoffmann GF, Prokisch H, Haack TB, Brundel BJJM, Haas D, Sibon OCM, and Anikster Y
- Subjects
- Amino Acid Sequence, Animals, Biosynthetic Pathways, Cardiomyopathy, Dilated diagnosis, Carnitine analogs & derivatives, Carnitine metabolism, Child, Preschool, Coenzyme A biosynthesis, Demography, Drosophila, Enzyme Stability, Female, Fibroblasts metabolism, Heart physiopathology, High-Throughput Nucleotide Sequencing, Homozygote, Humans, Infant, Infant, Newborn, Magnetic Resonance Imaging, Male, Pantetheine administration & dosage, Pantetheine analogs & derivatives, Pedigree, Peptide Synthases blood, Peptide Synthases chemistry, Peptide Synthases deficiency, Reproducibility of Results, Saccharomyces cerevisiae genetics, Cardiomyopathy, Dilated enzymology, Cardiomyopathy, Dilated genetics, Genes, Recessive, Mutation genetics, Peptide Synthases genetics
- Abstract
Coenzyme A (CoA) is an essential metabolic cofactor used by around 4% of cellular enzymes. Its role is to carry and transfer acetyl and acyl groups to other molecules. Cells can synthesize CoA de novo from vitamin B5 (pantothenate) through five consecutive enzymatic steps. Phosphopantothenoylcysteine synthetase (PPCS) catalyzes the second step of the pathway during which phosphopantothenate reacts with ATP and cysteine to form phosphopantothenoylcysteine. Inborn errors of CoA biosynthesis have been implicated in neurodegeneration with brain iron accumulation (NBIA), a group of rare neurological disorders characterized by accumulation of iron in the basal ganglia and progressive neurodegeneration. Exome sequencing in five individuals from two unrelated families presenting with dilated cardiomyopathy revealed biallelic mutations in PPCS, linking CoA synthesis with a cardiac phenotype. Studies in yeast and fruit flies confirmed the pathogenicity of identified mutations. Biochemical analysis revealed a decrease in CoA levels in fibroblasts of all affected individuals. CoA biosynthesis can occur with pantethine as a source independent from PPCS, suggesting pantethine as targeted treatment for the affected individuals still alive., (Copyright © 2018 American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)
- Published
- 2018
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39. Identification of Cadherin 2 ( CDH2 ) Mutations in Arrhythmogenic Right Ventricular Cardiomyopathy.
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Mayosi BM, Fish M, Shaboodien G, Mastantuono E, Kraus S, Wieland T, Kotta MC, Chin A, Laing N, Ntusi NB, Chong M, Horsfall C, Pimstone SN, Gentilini D, Parati G, Strom TM, Meitinger T, Pare G, Schwartz PJ, and Crotti L
- Subjects
- Adolescent, Adult, Amino Acid Substitution, Female, Humans, Male, Antigens, CD genetics, Arrhythmogenic Right Ventricular Dysplasia genetics, Cadherins genetics, Exome, Mutation, Missense
- Abstract
Background: Arrhythmogenic right ventricular cardiomyopathy (ARVC) is a genetically heterogeneous condition caused by mutations in genes encoding desmosomal proteins in up to 60% of cases. The 40% of genotype-negative cases point to the need of identifying novel genetic substrates by studying genotype-negative ARVC families., Methods and Results: Whole exome sequencing was performed on 2 cousins with ARVC. Validation of 13 heterozygous variants that survived internal quality and frequency filters was performed by Sanger sequencing. These variants were also genotyped in all family members to establish genotype-phenotype cosegregation. High-resolution melting analysis followed by Sanger sequencing was used to screen for mutations in cadherin 2 ( CDH2 ) gene in unrelated genotype-negative patients with ARVC. In a 3-generation family, we identified by whole exome sequencing a novel mutation in CDH2 (c.686A>C, p.Gln229Pro) that cosegregated with ARVC in affected family members. The CDH2 c.686A>C variant was not present in >200 000 chromosomes available through public databases, which changes a conserved amino acid of cadherin 2 protein and is supported as the causal mutation by parametric linkage analysis. We subsequently screened 73 genotype-negative ARVC probands tested previously for mutations in known ARVC genes and found an additional likely pathogenic variant in CDH2 (c.1219G>A, p.Asp407Asn). CDH2 encodes cadherin 2 (also known as N-cadherin), a protein that plays a vital role in cell adhesion, making it a biologically plausible candidate gene in ARVC pathogenesis., Conclusions: These data implicate CDH2 mutations as novel genetic causes of ARVC and contribute to a more complete identification of disease genes involved in cardiomyopathy., (© 2017 American Heart Association, Inc.)
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- 2017
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40. Genetic Modifiers for the Long-QT Syndrome: How Important Is the Role of Variants in the 3' Untranslated Region of KCNQ1?
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Crotti L, Lahtinen AM, Spazzolini C, Mastantuono E, Monti MC, Morassutto C, Parati G, Heradien M, Goosen A, Lichtner P, Meitinger T, Brink PA, Kontula K, Swan H, and Schwartz PJ
- Subjects
- Europe, Female, Gene Frequency, Genetic Association Studies, Genetic Predisposition to Disease, Haplotypes, Heredity, Humans, Linkage Disequilibrium, Male, Pedigree, Phenotype, Risk Factors, Romano-Ward Syndrome diagnosis, Romano-Ward Syndrome physiopathology, Severity of Illness Index, South Africa, 3' Untranslated Regions, Genes, Modifier, KCNQ1 Potassium Channel genetics, Polymorphism, Single Nucleotide, Romano-Ward Syndrome genetics
- Abstract
Background: Long-QT syndrome is an inherited cardiac channelopathy characterized by delayed repolarization, risk of life-threatening arrhythmia, and significant clinical variability even within families. Three single-nucleotide polymorphisms (SNPs) in the 3' untranslated region of KCNQ1 were recently suggested to be associated with suppressed gene expression and hence decreased disease severity when located on the same haplotype with a disease-causing KCNQ1 mutation. We sought to replicate this finding in a larger and a genetically more homogeneous population of KCNQ1 mutation carriers., Methods and Results: The 3 SNPs (rs2519184, rs8234, and rs10798) were genotyped in a total of 747 KCNQ1 mutation carriers with A341V, G589D, or IVS7-2A>G mutation. The SNP haplotypes were assigned based on family trees. The SNP allele frequencies and clinical severity differed between the 3 mutation groups. The different SNP haplotypes were neither associated with heart rate-corrected QT interval duration (QTc) nor cardiac events in any of the 3 mutation groups. When the mutation groups were combined, the derived SNP haplotype of rs8234 and rs10798 located on the same haplotype with the mutation was associated with a shorter QTc interval (P<0.05) and a reduced occurrence of cardiac events (P<0.01), consistent with the previous finding. However, when the population-specific mutation was controlled for, both associations were no longer evident., Conclusions: 3' Untranslated region SNPs are not acting as genetic modifiers in a large group of LQT1 patients. The confounding effect of merging a genetically and clinically heterogeneous group of patients needs to be taken into account when studying disease modifiers., (© 2016 American Heart Association, Inc.)
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- 2016
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41. The genetics underlying acquired long QT syndrome: impact for genetic screening.
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Itoh H, Crotti L, Aiba T, Spazzolini C, Denjoy I, Fressart V, Hayashi K, Nakajima T, Ohno S, Makiyama T, Wu J, Hasegawa K, Mastantuono E, Dagradi F, Pedrazzini M, Yamagishi M, Berthet M, Murakami Y, Shimizu W, Guicheney P, Schwartz PJ, and Horie M
- Subjects
- Electrocardiography, Female, France, Genetic Testing, Humans, Italy, Japan, Male, Middle Aged, Mutation, Long QT Syndrome
- Abstract
Aims: Acquired long QT syndrome (aLQTS) exhibits QT prolongation and Torsades de Pointes ventricular tachycardia triggered by drugs, hypokalaemia, or bradycardia. Sometimes, QTc remains prolonged despite elimination of triggers, suggesting the presence of an underlying genetic substrate. In aLQTS subjects, we assessed the prevalence of mutations in major LQTS genes and their probability of being carriers of a disease-causing genetic variant based on clinical factors., Methods and Results: We screened for the five major LQTS genes among 188 aLQTS probands (55 ± 20 years, 140 females) from Japan, France, and Italy. Based on control QTc (without triggers), subjects were designated 'true aLQTS' (QTc within normal limits) or 'unmasked cLQTS' (all others) and compared for QTc and genetics with 2379 members of 1010 genotyped congenital long QT syndrome (cLQTS) families. Cardiac symptoms were present in 86% of aLQTS subjects. Control QTc of aLQTS was 453 ± 39 ms, shorter than in cLQTS (478 ± 46 ms, P < 0.001) and longer than in non-carriers (406 ± 26 ms, P < 0.001). In 53 (28%) aLQTS subjects, 47 disease-causing mutations were identified. Compared with cLQTS, in 'true aLQTS', KCNQ1 mutations were much less frequent than KCNH2 (20% [95% CI 7-41%] vs. 64% [95% CI 43-82%], P < 0.01). A clinical score based on control QTc, age, and symptoms allowed identification of patients more likely to carry LQTS mutations., Conclusion: A third of aLQTS patients carry cLQTS mutations, those on KCNH2 being more common. The probability of being a carrier of cLQTS disease-causing mutations can be predicted by simple clinical parameters, thus allowing possibly cost-effective genetic testing leading to cascade screening for identification of additional at-risk family members., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author 2015. For permissions please email: journals.permissions@oup.com.)
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- 2016
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42. Novel calmodulin mutations associated with congenital arrhythmia susceptibility.
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Makita N, Yagihara N, Crotti L, Johnson CN, Beckmann BM, Roh MS, Shigemizu D, Lichtner P, Ishikawa T, Aiba T, Homfray T, Behr ER, Klug D, Denjoy I, Mastantuono E, Theisen D, Tsunoda T, Satake W, Toda T, Nakagawa H, Tsuji Y, Tsuchiya T, Yamamoto H, Miyamoto Y, Endo N, Kimura A, Ozaki K, Motomura H, Suda K, Tanaka T, Schwartz PJ, Meitinger T, Kääb S, Guicheney P, Shimizu W, Bhuiyan ZA, Watanabe H, Chazin WJ, and George AL Jr
- Subjects
- Adrenergic beta-Antagonists therapeutic use, Adult, Age of Onset, Amino Acid Sequence, Calcium chemistry, Calcium metabolism, Calmodulin metabolism, Child, Child, Preschool, Electrocardiography, Female, Genetic Predisposition to Disease, High-Throughput Nucleotide Sequencing, Humans, Infant, Long QT Syndrome drug therapy, Long QT Syndrome pathology, Male, Molecular Sequence Data, Mutation, Missense, Pedigree, Protein Binding, Sequence Analysis, DNA, Tachycardia, Ventricular drug therapy, Tachycardia, Ventricular pathology, Calmodulin genetics, Long QT Syndrome genetics, Tachycardia, Ventricular genetics
- Abstract
Background: Genetic predisposition to life-threatening cardiac arrhythmias such as congenital long-QT syndrome (LQTS) and catecholaminergic polymorphic ventricular tachycardia (CPVT) represent treatable causes of sudden cardiac death in young adults and children. Recently, mutations in calmodulin (CALM1, CALM2) have been associated with severe forms of LQTS and CPVT, with life-threatening arrhythmias occurring very early in life. Additional mutation-positive cases are needed to discern genotype-phenotype correlations associated with calmodulin mutations., Methods and Results: We used conventional and next-generation sequencing approaches, including exome analysis, in genotype-negative LQTS probands. We identified 5 novel de novo missense mutations in CALM2 in 3 subjects with LQTS (p.N98S, p.N98I, p.D134H) and 2 subjects with clinical features of both LQTS and CPVT (p.D132E, p.Q136P). Age of onset of major symptoms (syncope or cardiac arrest) ranged from 1 to 9 years. Three of 5 probands had cardiac arrest and 1 of these subjects did not survive. The clinical severity among subjects in this series was generally less than that originally reported for CALM1 and CALM2 associated with recurrent cardiac arrest during infancy. Four of 5 probands responded to β-blocker therapy, whereas 1 subject with mutation p.Q136P died suddenly during exertion despite this treatment. Mutations affect conserved residues located within Ca(2+)-binding loops III (p.N98S, p.N98I) or IV (p.D132E, p.D134H, p.Q136P) and caused reduced Ca(2+)-binding affinity., Conclusions: CALM2 mutations can be associated with LQTS and with overlapping features of LQTS and CPVT., (© 2014 American Heart Association, Inc.)
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- 2014
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43. [Clinical conditions associated with abnormal QT interval: clinical implications].
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Crotti L, Dossena C, Mastantuono E, Dagradi F, and Schwartz PJ
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- Heart Diseases complications, Heart Diseases diagnosis, Humans, Long QT Syndrome physiopathology, Myocardial Infarction physiopathology, Heart Diseases physiopathology
- Abstract
Impressive progress has been made in the last 40 years in the understanding of the role of QT interval and its genetic basis in sudden cardiac death risk. The present review will provide a first practical part on QT measurement and its correction for heart rate. Subsequently, the long QT syndrome and short QT syndrome will be described, as the two main arrhythmogenic congenital heart diseases characterized by abnormal QT length. Furthermore, we will discuss about prolonged QT in the pathogenesis of sudden infant death syndrome and the preventive role of neonatal ECG screening. The prognostic role of QT interval will be presented also in the context of myocardial infarction and hypertrophic cardiomyopathy. The last part of the review is devoted to future perspectives and latest results on modifier genes.
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- 2013
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44. [Surveillance system OKkio alla SALUTE: the role of primary school in the promotion of healthy life style--results in 2008].
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Lamberti A, Spinelli A, Baglio G, Nardone P, Silani MT, Mastantuono E, Teti S, Menzano MT, and Galeone D
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- Adolescent, Adult, Body Mass Index, Body Weight, Child, Faculty statistics & numerical data, Feeding Behavior, Female, Health Surveys, Humans, Italy epidemiology, Male, Motor Activity, Population Surveillance methods, Schools, Sicily epidemiology, Surveys and Questionnaires, Adolescent Behavior, Child Behavior, Health Promotion, Life Style, Obesity epidemiology, Obesity prevention & control, Students statistics & numerical data
- Abstract
In 2007 the Italian Ministry of Health/CCM promoted and funded the project "System of surveys of behavioral risks in ages 6-17", coordinated by the National Institute of Health. One of the aims of the project is the definition and implementation of a data collection system on the weight of primary school children, their eating habits, physical activity and school initiatives favoring the healthy growth of children, called "OKkio alla SALUTE". In 2008 the first survey of OKkio was conducted in 18 Italian regions. 45,590 third grade school children in 2610 classes participated. Information was collected from 2461 schools. The responses of the head teachers showed that 64% of the schools have a canteen, used by 70% of children. Only 12% of schools include the provision of a balanced mid-morning snack. Frequently there are educational activities related to physical activity and healthy eating that, in some cases, also involve the families of the children. 29% of the schools cannot guarantee two hours of physical activity as suggested by the school curriculum because of the lack or inadequacy of the gym or the structure of the timetables. The information gathered through the cooperation of school administrators, teachers and health workers, has helped to describe the major health educational activities of the school, that is confirmed to be the ideal venue for promoting healthy lifestyles in young people.
- Published
- 2010
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