Your search keyword '"Prieur, F"' showing total 7 results

1. A series of 38 novel germline and somatic mutations of NIPBL in Cornelia de Lange syndrome

Author

Nizon, M., Henry, M., Michot, C., Baumann, C., Bazin, A., Bessières, B., Blesson, S., Cordier-Alex, M.-P., David, A., Delahaye-Duriez, A., Delezoïde, A.-L., Dieux-Coeslier, A., Doco-Fenzy, M., Faivre, L., Goldenberg, A., Layet, V., Loget, P., Marlin, S., Martinovic, J., Odent, S., Pasquier, L., Plessis, G., Prieur, F., Putoux, A., Rio, M., Testard, H., Bonnefont, J.-P., and Cormier-Daire, V.

Published

2016

2. Xq28 duplication includingMECP2in six unreported affected females: what can we learn for diagnosis and genetic counselling?

Author

El Chehadeh, S., primary, Touraine, R., additional, Prieur, F., additional, Reardon, W., additional, Bienvenu, T., additional, Chantot-Bastaraud, S., additional, Doco-Fenzy, M., additional, Landais, E., additional, Philippe, C., additional, Marle, N., additional, Callier, P., additional, Mosca-Boidron, A.-L., additional, Mugneret, F., additional, Le Meur, N., additional, Goldenberg, A., additional, Guerrot, A.-M., additional, Chambon, P., additional, Satre, V., additional, Coutton, C., additional, Jouk, P.-S., additional, Devillard, F., additional, Dieterich, K., additional, Afenjar, A., additional, Burglen, L., additional, Moutard, M.-L., additional, Addor, M.-C., additional, Lebon, S., additional, Martinet, D., additional, Alessandri, J.-L., additional, Doray, B., additional, Miguet, M., additional, Devys, D., additional, Saugier-Veber, P., additional, Drunat, S., additional, Aral, B., additional, Kremer, V., additional, Rondeau, S., additional, Tabet, A.-C., additional, Thevenon, J., additional, Thauvin-Robinet, C., additional, Perreton, N., additional, Des Portes, V., additional, and Faivre, L., additional

Published

2017

3. A series of 38 novel germline and somatic mutations ofNIPBLin Cornelia de Lange syndrome

Author

Nizon, M., primary, Henry, M., additional, Michot, C., additional, Baumann, C., additional, Bazin, A., additional, Bessières, B., additional, Blesson, S., additional, Cordier-Alex, M.-P., additional, David, A., additional, Delahaye-Duriez, A., additional, Delezoïde, A.-L., additional, Dieux-Coeslier, A., additional, Doco-Fenzy, M., additional, Faivre, L., additional, Goldenberg, A., additional, Layet, V., additional, Loget, P., additional, Marlin, S., additional, Martinovic, J., additional, Odent, S., additional, Pasquier, L., additional, Plessis, G., additional, Prieur, F., additional, Putoux, A., additional, Rio, M., additional, Testard, H., additional, Bonnefont, J.-P., additional, and Cormier-Daire, V., additional

Published

2016

4. Xq28 duplication including MECP2 in six unreported affected females: what can we learn for diagnosis and genetic counselling?

Author

El Chehadeh, S., Touraine, R., Prieur, F., Reardon, W., Bienvenu, T., Chantot ‐ Bastaraud, S., Doco ‐ Fenzy, M., Landais, E., Philippe, C., Marle, N., Callier, P., Mosca ‐ Boidron, A. ‐ L., Mugneret, F., Le Meur, N., Goldenberg, A., Guerrot, A. ‐ M., Chambon, P., Satre, V., Coutton, C., and Jouk, P. ‐ S.

Subjects

X chromosome, GENETIC correlations, PHENOTYPES, SPASTICITY, EPILEPSY

Abstract

Duplication of the Xq28 region, involving MECP2 (dupMECP2), has been primarily described in males with severe developmental delay, spasticity, epilepsy, stereotyped movements and recurrent infections. Carrier mothers are usually asymptomatic with an extremely skewed X chromosome inactivation (XCI) pattern. We report a series of six novel symptomatic females carrying a de novo interstitial dupMECP2, and review the 14 symptomatic females reported to date, with the aim to further delineate their phenotype and give clues for genetic counselling. One patient was adopted and among the other 19 patients, seven (37%) had inherited their duplication from their mother, including three mildly (XCI: 70/30, 63/37, 100/0 in blood and random in saliva), one moderately (XCI: random) and three severely (XCI: uninformative and 88/12) affected patients. After combining our data with data from the literature, we could not show a correlation between XCI in the blood or duplication size and the severity of the phenotype, or explain the presence of a phenotype in these females. These findings confirm that an abnormal phenotype, even severe, can be a rare event in females born to asymptomatic carrier mothers, making genetic counselling difficult in couples at risk in terms of prognosis, in particular in prenatal cases. [ABSTRACT FROM AUTHOR]

Published

2017

5. First evidence of SOX2 mutations in Peters' anomaly: Lessons from molecular screening of 95 patients.

Author

Chesneau B, Aubert-Mucca M, Fremont F, Pechmeja J, Soler V, Isidor B, Nizon M, Dollfus H, Kaplan J, Fares-Taie L, Rozet JM, Busa T, Lacombe D, Naudion S, Amiel J, Rio M, Attie-Bitach T, Lesage C, Thouvenin D, Odent S, Morel G, Vincent-Delorme C, Boute O, Vanlerberghe C, Dieux A, Boussion S, Faivre L, Pinson L, Laffargue F, Le Guyader G, Le Meur G, Prieur F, Lambert V, Laudier B, Cottereau E, Ayuso C, Corton-Pérez M, Bouneau L, Le Caignec C, Gaston V, Jeanton-Scaramouche C, Dupin-Deguine D, Calvas P, Chassaing N, and Plaisancié J

Subjects

Anterior Eye Segment abnormalities, Comparative Genomic Hybridization, DNA Copy Number Variations genetics, Humans, Mutation genetics, SOXB1 Transcription Factors genetics, Corneal Opacity diagnosis, Corneal Opacity genetics, Corneal Opacity pathology, Eye Abnormalities diagnosis, Eye Abnormalities genetics, Eye Abnormalities pathology

Abstract

Peters' anomaly (PA) is a rare anterior segment dysgenesis characterized by central corneal opacity and irido-lenticulo-corneal adhesions. Several genes are involved in syndromic or isolated PA (B3GLCT, PAX6, PITX3, FOXE3, CYP1B1). Some copy number variations (CNVs) have also been occasionally reported. Despite this genetic heterogeneity, most of patients remain without genetic diagnosis. We retrieved a cohort of 95 individuals with PA and performed genotyping using a combination of comparative genomic hybridization, whole genome, exome and targeted sequencing of 119 genes associated with ocular development anomalies. Causative genetic defects involving 12 genes and CNVs were identified for 1/3 of patients. Unsurprisingly, B3GLCT and PAX6 were the most frequently implicated genes, respectively in syndromic and isolated PA. Unexpectedly, the third gene involved in our cohort was SOX2, the major gene of micro-anophthalmia. Four unrelated patients with PA (isolated or with microphthalmia) were carrying pathogenic variants in this gene that was never associated with PA before. Here we described the largest cohort of PA patients ever reported. The genetic bases of PA are still to be explored as genetic diagnosis was unavailable for 2/3 of patients. Nevertheless, we showed here for the first time the involvement of SOX2 in PA, offering new evidence for its role in corneal transparency and anterior segment development., (© 2022 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2022

6. Neuropsychological study in 19 French patients with White-Sutton syndrome and POGZ mutations.

Author

Garde A, Cornaton J, Sorlin A, Moutton S, Nicolas C, Juif C, Geneviève D, Perrin L, Khau-Van-Kien P, Smol T, Vincent-Delorme C, Isidor B, Cogné B, Afenjar A, Keren B, Coubes C, Prieur F, Toutain A, Trousselet Y, Bourgouin S, Gonin-Olympiade C, Giraudat K, Piton A, Gérard B, Odent S, Tessier F, Lemasson L, Heide S, Gelineau AC, Sarret C, Miret A, Schaefer E, Piard J, Mathevet R, Boucon M, Bruel AL, Mau-Them FT, Chevarin M, Vitobello A, Philippe C, Thauvin-Robinet C, and Faivre L

Subjects

Adolescent, Adult, Child, Child, Preschool, Cohort Studies, Female, France, Genetic Predisposition to Disease, Humans, Male, Mutation, Neuropsychological Tests, Phenotype, Young Adult, Autism Spectrum Disorder genetics, Developmental Disabilities genetics, Genetic Variation, Intellectual Disability genetics, Neurocognitive Disorders genetics, Transposases genetics

Abstract

White-Sutton syndrome is a rare developmental disorder characterized by global developmental delay, intellectual disabilities (ID), and neurobehavioral abnormalities secondary to pathogenic pogo transposable element-derived protein with zinc finger domain (POGZ) variants. The purpose of our study was to describe the neurocognitive phenotype of an unbiased national cohort of patients with identified POGZ pathogenic variants. This study is based on a French collaboration through the AnDDI-Rares network, and includes 19 patients from 18 families with POGZ pathogenic variants. All clinical data and neuropsychological tests were collected from medical files. Among the 19 patients, 14 patients exhibited ID (six mild, five moderate and three severe). The five remaining patients had learning disabilities and shared a similar neurocognitive profile, including language difficulties, dysexecutive syndrome, attention disorders, slowness, and social difficulties. One patient evaluated for autism was found to have moderate autism spectrum disorder. This study reveals that the cognitive phenotype of patients with POGZ pathogenic variants can range from learning disabilities to severe ID. It highlights that pathogenic variations in the same genes can be reported in a large spectrum of neurocognitive profiles, and that children with learning disabilities could benefit from next generation sequencing techniques., (© 2020 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2021

7. Fetal megacystis-microcolon: Genetic mutational spectrum and identification of PDCL3 as a novel candidate gene.

Author

Billon C, Molin A, Poirsier C, Clemenson A, Dauge C, Grelet M, Sigaudy S, Patrier S, Goldenberg A, Layet V, Tantau J, Fleury C, Liard A, Diguet A, Fritih R, Verspyck E, Rendu J, Boutaud L, Tessier A, Thomas S, Razavi F, Achaiaa A, Elkhartoufi N, Hakkakian L, Magnin E, Bôle-Feysot C, Masson C, Ville Y, Roth P, Prieur F, Bessieres B, Bonniere M, and Attie-Bitach T

Subjects

Abnormalities, Multiple pathology, Aborted Fetus, Actins genetics, Colon pathology, Female, Homozygote, Humans, Infant, Newborn, Intestinal Pseudo-Obstruction pathology, Male, Mutation genetics, Myosin Heavy Chains genetics, Myosin Light Chains genetics, Pedigree, Urinary Bladder pathology, Exome Sequencing, Abnormalities, Multiple genetics, Carrier Proteins genetics, Colon abnormalities, Genetic Predisposition to Disease, Intestinal Pseudo-Obstruction genetics, Nerve Tissue Proteins genetics, Urinary Bladder abnormalities

Abstract

Megacystis-microcolon-intestinal-hypoperistalsis syndrome (MMIHS) is a severe congenital visceral myopathy characterized by an abdominal distension due to a large non-obstructed urinary bladder, a microcolon and intestinal hypo- or aperistalsis. Most of the patients described to date carry a sporadic heterozygous variant in ACTG2. More recently, recessive forms have been reported and mutations in MYH11, LMOD1, MYLK and MYL9 have been described at the molecular level. In the present report, we describe five patients carrying a recurrent heterozygous variant in ACTG2. Exome sequencing performed in four families allowed us to identify the genetic cause in three. In two families, we identified variants in MMIHS causal genes, respectively a nonsense homozygous variant in MYH11 and a previously described homozygous deletion in MYL9. Finally, we identified compound heterozygous variants in a novel candidate gene, PDCL3, c.[143_144del];[380G>A], p.[(Tyr48Ter)];[(Cys127Tyr)]. After cDNA analysis, a complete absence of PDLC3 expression was observed in affected individuals, indicating that both mutated transcripts were unstable and prone to mediated mRNA decay. PDCL3 encodes a protein involved in the folding of actin, a key step in thin filament formation. Presumably, loss-of-function of this protein affects the contractility of smooth muscle tissues, making PDCL3 an excellent candidate gene for autosomal recessive forms of MMIHS., (© 2020 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published

2020