Your search keyword '"Mazel, Benoit"' showing total 9 results

1. MYH7 p.(Arg1712Gln) is pathogenic founder variant causing hypertrophic cardiomyopathy with overall relatively delayed onset

Author

Marsili, Luisa, van Lint, Freyja H. M., Russo, Francesco, van Spaendonck-Zwarts, Karin Y., Ader, Flavie, Bichon, Marie-Line, Faivre, Laurence, Houweling, Arjan C., Isidor, Bertrand, Lekanne Deprez, Ronald H., Cox, Moniek G. P. J., Wilde, Arthur A. M., Mazel, Benoit, Mercier, Sandra, Dooijes, Dennis, Millat, Gilles, Nguyen, Karine, Post, Jan G., Richard, Pascale, van de Beek, Irma, Vermeer, Alexa M. C., Boven, Ludolf, Jongbloed, Jan D. H., and van Tintelen, J. Peter

Published

2023

2. ADGRL1 haploinsufficiency causes a variable spectrum of neurodevelopmental disorders in humans and alters synaptic activity and behavior in a mouse model

Author

Vitobello, Antonio, Mazel, Benoit, Lelianova, Vera G., Zangrandi, Alice, Petitto, Evelina, Suckling, Jason, Salpietro, Vincenzo, Meyer, Robert, Elbracht, Miriam, Kurth, Ingo, Eggermann, Thomas, Benlaouer, Ouafa, Lall, Gurprit, Tonevitsky, Alexander G., Scott, Daryl A., Chan, Katie M., Rosenfeld, Jill A., Nambot, Sophie, Safraou, Hana, Bruel, Ange-Line, Denommé-Pichon, Anne-Sophie, Tran Mau-Them, Frédéric, Philippe, Christophe, Duffourd, Yannis, Guo, Hui, Petersen, Andrea K., Granger, Leslie, Crunk, Amy, Bayat, Allan, Striano, Pasquale, Zara, Federico, Scala, Marcello, Thomas, Quentin, Delahaye, Andrée, de Sainte Agathe, Jean-Madeleine, Buratti, Julien, Kozlov, Serguei V., Faivre, Laurence, Thauvin-Robinet, Christel, and Ushkaryov, Yuri

Published

2022

3. CDK13-related disorder: Report of a series of 18 previously unpublished individuals and description of an epigenetic signature

Author

Rouxel, Flavien, Relator, Raissa, Kerkhof, Jennifer, McConkey, Haley, Levy, Michael, Dias, Patricia, Barat-Houari, Mouna, Bednarek, Nathalie, Boute, Odile, Chatron, Nicolas, Cherik, Florian, Delahaye-Duriez, Andrée, Doco-Fenzy, Martine, Faivre, Laurence, Gauthier, Lucas W., Heron, Delphine, Hildebrand, Michael S., Lesca, Gaëtan, Lespinasse, James, Mazel, Benoit, Menke, Leonie A., Morgan, Angela T., Pinson, Lucile, Quelin, Chloe, Rossi, Massimiliano, Ruiz-Pallares, Nathalie, Tran-Mau-Them, Frederic, Van Kessel, Imke N., Vincent, Marie, Weber, Mathys, Willems, Marjolaine, Leguyader, Gwenael, Sadikovic, Bekim, and Genevieve, David

Published

2022

4. FOXG1 variants can be associated with milder phenotypes than congenital Rett syndrome with unassisted walking and language development.

Author

Mazel, Benoit, Delanne, Julian, Garde, Aurore, Racine, Caroline, Bruel, Ange‐Line, Duffourd, Yannis, Lopergolo, Diego, Santorelli, Filippo Maria, Marchi, Viviana, Pinto, Anna Maria, Mencarelli, Maria Antonietta, Canitano, Roberto, Valentino, Floriana, Papa, Filomena Tiziana, Fallerini, Chiara, Mari, Francesca, Renieri, Alessandra, Munnich, Arnold, Niclass, Tanguy, and Le Guyader, Gwenaël

Published

2024

5. Advancing precision oncology through systematic germline and tumor genetic analysis: The oncogenetic point of view on findings from a prospective multicenter clinical trial of 666 patients.

Author

Mazel, Benoit, Bertolone, Geoffrey, Baurand, Amandine, Cosset, Elodie, Sawka, Caroline, Robert, Marion, Gautier, Elodie, Lançon, Allan, Réda, Manon, Favier, Laure, Dérangère, Valentin, Richard, Corentin, Binquet, Christine, Boidot, Romain, Goussot, Vincent, Albuisson, Juliette, Ghiringhelli, François, Faivre, Laurence, and Nambot, Sophie

Subjects

*HEREDITARY cancer syndromes, *GERM cells, *GENETIC counseling, *HEALTH counseling, *CLINICAL trials, *TUMOR markers

Abstract

Introduction: With the emergence of targeted therapies, there is a need to accurately identify more tumor biomarkers. The EXOMA trial was designed to offer tumor and germline exome sequencing (ES) to patients with solid malignant tumors and facing therapeutic failure. As hereditary cancer predispositions could be identified, with genetic counseling and health management implications, a genetic consultation was systematically established. This design needs to be discussed as genetic human resources are limited and indication of theranostic tests will increase. Methods: Genetic counseling was conducted within 15 days following inclusion in the study for patients recruited between December 2015 and July 2019. In silico analyses from theranostic ES were limited to 317 genes involved in oncogenesis, from both tumor and blood DNA. Results: Six hundred and sixty six patients had a genetic consultation before ES. In 65/666 patients, 66 germline pathogenic or likely pathogenic (P/LP) variants were identified in 16 actionable genes and seven non‐actionable genes according to French guidelines. 24/65 patients had previously received genetic analysis for diagnostic purposes, and for 17 of them, a P/LP variant had already been identified. Among the 48/65 remaining cases for which the EXOMA protocol revealed a previously unknown P/LP variant, only 19 met the criteria for genetic testing for inherited cancer risk after familial survey. These criteria had not been identified by the oncologist in 10 cases. In 21/65 cases, the variant was considered incidental. Discussion: In 7.4% of patients, an undiagnosed hereditary genetic predisposition was identified, whether or not related to the clinical presentation, and germline analysis impacted oncological management for only 6.3% of the cohort. This low percentage should be weighed against the burden of systematic genetic consultation and urgent circuits. Information or training tools to form oncologists to the prescription of germline genetic analyses should be explored, as well as information supports and patient preferences. [ABSTRACT FROM AUTHOR]

Published

2023

6. CAPRIN1 haploinsufficiency causes a neurodevelopmental disorder with language impairment, ADHD and ASD.

Author

Pavinato, Lisa, Vedove, Andrea Delle, Carli, Diana, Ferrero, Marta, Carestiato, Silvia, Howe, Jennifer L, Agolini, Emanuele, Coviello, Domenico A, van de Laar, Ingrid, Au, Ping Yee Billie, Gregorio, Eleonora Di, Fabbiani, Alessandra, Croci, Susanna, Mencarelli, Maria Antonietta, Bruno, Lucia P, Renieri, Alessandra, Veltra, Danai, Sofocleous, Christalena, Faivre, Laurence, and Mazel, Benoit

Subjects

LANGUAGE disorders, ATTENTION-deficit hyperactivity disorder, NEURAL development, PLURIPOTENT stem cells, NEURAL circuitry

Abstract

We describe an autosomal dominant disorder associated with loss-of-function variants in the Cell cycle associated protein 1 (CAPRIN1 ; MIM*601178). CAPRIN1 encodes a ubiquitous protein that regulates the transport and translation of neuronal mRNAs critical for synaptic plasticity, as well as mRNAs encoding proteins important for cell proliferation and migration in multiple cell types. We identified 12 cases with loss-of-function CAPRIN1 variants, and a neurodevelopmental phenotype characterized by language impairment/speech delay (100%), intellectual disability (83%), attention deficit hyperactivity disorder (82%) and autism spectrum disorder (67%). Affected individuals also had respiratory problems (50%), limb/skeletal anomalies (50%), developmental delay (42%) feeding difficulties (33%), seizures (33%) and ophthalmologic problems (33%). In patient-derived lymphoblasts and fibroblasts, we showed a monoallelic expression of the wild-type allele, and a reduction of the transcript and protein compatible with a half dose. To further study pathogenic mechanisms, we generated s CAPRIN1 +/− human induced pluripotent stem cells via CRISPR–Cas9 mutagenesis and differentiated them into neuronal progenitor cells and cortical neurons. CAPRIN1 loss caused reduced neuronal processes, overall disruption of the neuronal organization and an increased neuronal degeneration. We also observed an alteration of mRNA translation in CAPRIN1 +/− neurons, compatible with its suggested function as translational inhibitor. CAPRIN1 +/− neurons also showed an impaired calcium signalling and increased oxidative stress, two mechanisms that may directly affect neuronal networks development, maintenance and function. According to what was previously observed in the mouse model, measurements of activity in CAPRIN1 +/− neurons via micro-electrode arrays indicated lower spike rates and bursts, with an overall reduced activity. In conclusion, we demonstrate that CAPRIN1 haploinsufficiency causes a novel autosomal dominant neurodevelopmental disorder and identify morphological and functional alterations associated with this disorder in human neuronal models. [ABSTRACT FROM AUTHOR]

Published

2023

7. Epileptic encephalopathy as a new feature of the sudden infant death with dysgenesis of the testes syndrome caused by TSPYL1 variants.

Author

Mazel, Benoit, Mallet, Delphine, Roucher‐Boulez, Florence, Signor, Candace Ben, Bournez, Marie, Darmency, Véronique, Bourgeois, Valentin, Poe, Charlotte, El Khabbaz, Fares, Vitobello, Antonio, Philippe, Christophe, Duffourd, Yannis, Thauvin‐Robinet, Christel, Faivre, Laurence, and Nambot, Sophie

Abstract

Sudden infant death with dysgenesis of the testes syndrome (SIDDT) is a rare autosomal recessive disorder associating developmental sex disorder (DSD) in patients with 46,XY karyotype and visceroautonomic dysfunction responsible for sudden infant death. First described in 2004, very few patients have since been reported. We describe here a new patient with SIDDT and epileptic encephalopathy (EE). We provide the phenotypic description and genetic results of a boy carrying biallelic TSPYL1 deleterious variants. We also reviewed the data of the 26 previously described patients with SIDDT. Our patient presented gonadal dysgenesis, cardio‐respiratory dysfunction, and repeated seizures, leading in 1 month to severe intractable EE. He died at age 10 months of cardiorespiratory arrest. Four other reported patients from two families presented with progressive epilepsy, including one with severe EE. No similar phenotype was described in the 22 other patients and the recurrent variant p.Val242Glufs*52 appears to be more frequently associated with seizures. To note, our patient is the first case with compound heterozygous TSPYL1 variants. These findings expand the phenotypic spectrum of SIDDT by reporting progressive epilepsy and severe EE as a possible outcome. This information may help in managing patients with SIDDT. [ABSTRACT FROM AUTHOR]

Published

2022

8. CAPRIN1 haploinsufficiency causes a neurodevelopmental disorder with language impairment, ADHD and ASD.

Author

Pavinato L, Delle Vedove A, Carli D, Ferrero M, Carestiato S, Howe JL, Agolini E, Coviello DA, van de Laar I, Au PYB, Di Gregorio E, Fabbiani A, Croci S, Mencarelli MA, Bruno LP, Renieri A, Veltra D, Sofocleous C, Faivre L, Mazel B, Safraou H, Denommé-Pichon AS, van Slegtenhorst MA, Giesbertz N, van Jaarsveld RH, Childers A, Rogers RC, Novelli A, De Rubeis S, Buxbaum JD, Scherer SW, Ferrero GB, Wirth B, and Brusco A

Subjects

Animals, Mice, Humans, Haploinsufficiency genetics, Proteins genetics, Cell Cycle Proteins genetics, Autism Spectrum Disorder genetics, Attention Deficit Disorder with Hyperactivity, Induced Pluripotent Stem Cells, Neurodevelopmental Disorders complications, Neurodevelopmental Disorders genetics, Language Development Disorders

Abstract

We describe an autosomal dominant disorder associated with loss-of-function variants in the Cell cycle associated protein 1 (CAPRIN1; MIM*601178). CAPRIN1 encodes a ubiquitous protein that regulates the transport and translation of neuronal mRNAs critical for synaptic plasticity, as well as mRNAs encoding proteins important for cell proliferation and migration in multiple cell types. We identified 12 cases with loss-of-function CAPRIN1 variants, and a neurodevelopmental phenotype characterized by language impairment/speech delay (100%), intellectual disability (83%), attention deficit hyperactivity disorder (82%) and autism spectrum disorder (67%). Affected individuals also had respiratory problems (50%), limb/skeletal anomalies (50%), developmental delay (42%) feeding difficulties (33%), seizures (33%) and ophthalmologic problems (33%). In patient-derived lymphoblasts and fibroblasts, we showed a monoallelic expression of the wild-type allele, and a reduction of the transcript and protein compatible with a half dose. To further study pathogenic mechanisms, we generated sCAPRIN1+/- human induced pluripotent stem cells via CRISPR-Cas9 mutagenesis and differentiated them into neuronal progenitor cells and cortical neurons. CAPRIN1 loss caused reduced neuronal processes, overall disruption of the neuronal organization and an increased neuronal degeneration. We also observed an alteration of mRNA translation in CAPRIN1+/- neurons, compatible with its suggested function as translational inhibitor. CAPRIN1+/- neurons also showed an impaired calcium signalling and increased oxidative stress, two mechanisms that may directly affect neuronal networks development, maintenance and function. According to what was previously observed in the mouse model, measurements of activity in CAPRIN1+/- neurons via micro-electrode arrays indicated lower spike rates and bursts, with an overall reduced activity. In conclusion, we demonstrate that CAPRIN1 haploinsufficiency causes a novel autosomal dominant neurodevelopmental disorder and identify morphological and functional alterations associated with this disorder in human neuronal models., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

9. Genomic and phenotypic characterization of 404 individuals with neurodevelopmental disorders caused by CTNNB1 variants.

Author

Kayumi S, Pérez-Jurado LA, Palomares M, Rangu S, Sheppard SE, Chung WK, Kruer MC, Kharbanda M, Amor DJ, McGillivray G, Cohen JS, García-Miñaúr S, van Eyk CL, Harper K, Jolly LA, Webber DL, Barnett CP, Santos-Simarro F, Pacio-Míguez M, Pozo AD, Bakhtiari S, Deardorff M, Dubbs HA, Izumi K, Grand K, Gray C, Mark PR, Bhoj EJ, Li D, Ortiz-Gonzalez XR, Keena B, Zackai EH, Goldberg EM, Perez de Nanclares G, Pereda A, Llano-Rivas I, Arroyo I, Fernández-Cuesta MÁ, Thauvin-Robinet C, Faivre L, Garde A, Mazel B, Bruel AL, Tress ML, Brilstra E, Fine AS, Crompton KE, Stegmann APA, Sinnema M, Stevens SCJ, Nicolai J, Lesca G, Lion-François L, Haye D, Chatron N, Piton A, Nizon M, Cogne B, Srivastava S, Bassetti J, Muss C, Gripp KW, Procopio RA, Millan F, Morrow MM, Assaf M, Moreno-De-Luca A, Joss S, Hamilton MJ, Bertoli M, Foulds N, McKee S, MacLennan AH, Gecz J, and Corbett MA

Subjects

Humans, Phenotype, Wnt Signaling Pathway genetics, Genomics, beta Catenin genetics, Neurodevelopmental Disorders genetics, Intellectual Disability genetics

Abstract

Purpose: Germline loss-of-function variants in CTNNB1 cause neurodevelopmental disorder with spastic diplegia and visual defects (NEDSDV; OMIM 615075) and are the most frequent, recurrent monogenic cause of cerebral palsy (CP). We investigated the range of clinical phenotypes owing to disruptions of CTNNB1 to determine the association between NEDSDV and CP., Methods: Genetic information from 404 individuals with collectively 392 pathogenic CTNNB1 variants were ascertained for the study. From these, detailed phenotypes for 52 previously unpublished individuals were collected and combined with 68 previously published individuals with comparable clinical information. The functional effects of selected CTNNB1 missense variants were assessed using TOPFlash assay., Results: The phenotypes associated with pathogenic CTNNB1 variants were similar. A diagnosis of CP was not significantly associated with any set of traits that defined a specific phenotypic subgroup, indicating that CP is not additional to NEDSDV. Two CTNNB1 missense variants were dominant negative regulators of WNT signaling, highlighting the utility of the TOPFlash assay to functionally assess variants., Conclusion: NEDSDV is a clinically homogeneous disorder irrespective of initial clinical diagnoses, including CP, or entry points for genetic testing., Competing Interests: Conflict of Interest F.M. and M.M.M. are employees of GeneDX, Inc. All other authors declare no conflict of interest., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022