Your search keyword '"Esculpavit C"' showing total 12 results

1. Phenotypic spectrum of CHARGE syndrome in fetuses with CHD7 truncating mutations correlates with expression during human development

Author

Sanlaville, D, Etchevers, H C, Gonzales, M, Martinovic, J, Clément-Ziza, M, Delezoide, A-L, Aubry, M-C, Pelet, A, Chemouny, S, Cruaud, C, Audollent, S, Esculpavit, C, Goudefroye, G, Ozilou, C, Fredouille, C, Joye, N, Morichon-Delvallez, N, Dumez, Y, Weissenbach, J, Munnich, A, Amiel, J, Encha-Razavi, F, Lyonnet, S, Vekemans, M, and Attié-Bitach, T

Published

2006

2. Agyria/pachygyria is associated with 7q31-qter duplication

Author

Morinchon-Delvallez, N., Elghezal, H., Fontaine, S., Esculpavit, C., Martinovic, Y., Aubry, M.C., Sonigo, P., Benachi, A., Romana, S., Vekemans, M., and Encha-Razavi, F.

Subjects

Genetic research -- Analysis, Human genetics -- Research, Brain -- Abnormalities, Genetic disorders -- Case studies, Biological sciences

Published

2000

3. Spectrum of MKS1 and MKS3 mutations in Meckel syndrome: a genotype-phenotype correlation. Mutation in brief #960. Online

Author

Khaddour, R., Smith, U., Baala, L., Martinovic, J., Clavering, D., Shaffiq, R., Ozilou, C., Cullinane, A., Kyttälä, M., Shalev, S., Audollent, S., D Humières, C., Kadhom, N., Esculpavit, C., Viot, G., Boone, C., Oien, C., Encha-Razavi, F., Batman, P. A., Bennett, C. P., Woods, C. G., Roume, J., Lyonnet, S., Génin, E., Le Merrer, M., Munnich, A., Gubler, M. C., Cox, P., Macdonald, F., Vekemans, M., Johnson, C. A., and Tania ATTIE-BITACH

Subjects

Cohort Studies, Phenotype, Genotype, Central Nervous System Diseases, Mutation, Ethnicity, Humans, Membrane Proteins, Proteins, Syndrome

Abstract

Meckel syndrome (MKS) is a rare autosomal recessive lethal condition characterized by central nervous system malformations (typically occipital meningoencephalocele), postaxial polydactyly, multicystic kidney dysplasia, and ductal proliferation in the portal area of the liver. MKS is genetically heterogeneous and three loci have been mapped respectively on 17q23 (MKS1), 11q13 (MKS2), and 8q24 (MKS3). Very recently, two genes have been identified: MKS1/FLJ20345 on 17q in Finnish kindreds, carrying the same intronic deletion, c.1408-35_c.1408-7del29, and MKS3/TMEM67 on 8q in families from Pakistan and Oman. Here we report the genotyping of the MKS1 and MKS3 genes in a large, multiethnic cohort of 120 independent cases of MKS. Our first results indicate that the MKS1 and MKS3 genes are each responsible for about 7% of MKS cases with various mutations in different populations. A strong phenotype-genotype correlation, depending on the mutated gene, was observed regarding the type of central nervous system malformation, the frequency of polydactyly, bone dysplasia, and situs inversus. The MKS1 c.1408-35_1408-7del29 intronic mutation was identified in three cases from French or English origin and dated back to 162 generations (approx. 4050 years) ago. We also identified a common MKS3 splice-site mutation, c.1575+1GA, in five Pakistani sibships of three unrelated families of Mirpuri origin, with an estimated age-of-mutation of 5 generations (125 years).

Published

2007

4. PAX2 mutations in fetal renal hypodysplasia.

Author

Martinovic-Bouriel J, Benachi A, Bonnière M, Brahimi N, Esculpavit C, Morichon N, Vekemans M, Antignac C, Salomon R, Encha-Razavi F, Attié-Bitach T, and Gubler MC

Subjects

Adolescent, Adult, DNA Mutational Analysis, Eye pathology, Eye Abnormalities genetics, Eye Abnormalities pathology, Female, Humans, Kidney pathology, Pregnancy, Fetus abnormalities, Kidney abnormalities, Kidney Diseases genetics, Kidney Diseases pathology, Mutation genetics, PAX2 Transcription Factor genetics

Abstract

Papillorenal syndrome also known as renal-coloboma syndrome (OMIM 120330) is an autosomal dominant condition comprising optic nerve anomaly and renal oligomeganephronic hypoplasia. This reduced number of nephron generations with compensatory glomerular hypertrophy leads towards chronic insufficiency with renal failure. We report on two fetuses with PAX2 mutations presenting at 24 and 18 weeks' gestation, respectively, born into two different sibships. In our first patient, termination of pregnancy was elected for anhydramnios and suspicion of renal agenesis in the healthy couple with an unremarkable previous clinical history. This fetus had bilateral asymmetric kidney anomalies including a small multicystic left kidney, and an extremely hypoplastic right kidney. Histology showed dysplastic lesions in the left kidney, contrasting with rather normal organization in the hypoplastic right kidney. Ocular examination disclosed bilateral optic nerve coloboma. The association of these anomalies, highly suggestive of the papillorenal syndrome, led us to perform the molecular study of the PAX2 gene. Direct sequencing of the PAX2 coding sequence identified a de novo single G deletion of nucleotide 935 in exon 3 of the PAX2 resulting in a frameshift mutation (c.392delG, p.Ser131Thrfs*28). In the second family, the presence of a maternally inherited PAX2 mutation led to a decision for termination of pregnancy. The 18-week gestation fetus presented the papillorenal syndrome including hypoplastic kidneys and optic nerve coloboma. In order to address the PAX2 involvement in isolated renal "disease," 18 fetuses fulfilling criteria were screened: 10/18 had uni- or bilateral agenesis, 6/18 had bilateral multicystic dysplasia with enlarged kidneys, and 2/18 presented bilateral severe hypodysplasia confirmed on fetopathological examination. To the best of our knowledge, our first patient represents an unreported fetal diagnosis of papillorenal syndrome, and another example of the impact of oriented fetopathological examination in genetic counseling of the parents., ((c) 2010 Wiley-Liss, Inc.)

Published

2010

5. CC2D2A mutations in Meckel and Joubert syndromes indicate a genotype-phenotype correlation.

Author

Mougou-Zerelli S, Thomas S, Szenker E, Audollent S, Elkhartoufi N, Babarit C, Romano S, Salomon R, Amiel J, Esculpavit C, Gonzales M, Escudier E, Leheup B, Loget P, Odent S, Roume J, Gérard M, Delezoide AL, Khung S, Patrier S, Cordier MP, Bouvier R, Martinovic J, Gubler MC, Boddaert N, Munnich A, Encha-Razavi F, Valente EM, Saad A, Saunier S, Vekemans M, and Attié-Bitach T

Subjects

Alleles, Cohort Studies, Cytoskeletal Proteins, Gene Expression Regulation, Developmental, Genes, Recessive, Genetic Association Studies, Genotype, Humans, In Situ Hybridization, Male, Nervous System Diseases pathology, Phenotype, Proteins metabolism, RNA Splicing, Syndrome, Mutation, Nervous System Diseases genetics, Proteins genetics

Abstract

Meckel-Gruber syndrome (MKS) is a lethal fetal disorder characterized by diffuse renal cystic dysplasia, polydactyly, a brain malformation that is usually occipital encephalocele, and/or vermian agenesis, with intrahepatic biliary duct proliferation. Joubert syndrome (JBS) is a viable neurological disorder with a characteristic "molar tooth sign" (MTS) on axial images reflecting cerebellar vermian hypoplasia/dysplasia. Both conditions are classified as ciliopathies with an autosomal recessive mode of inheritance. Allelism of MKS and JBS has been reported for TMEM67/MKS3, CEP290/MKS4, and RPGRIP1L/MKS5. Recently, one homozygous splice mutation with a founder effect was reported in the CC2D2A gene in Finnish fetuses with MKS, defining the 6th locus for MKS. Shortly thereafter, CC2D2A mutations were also reported in JBS. The analysis of the CC2D2A gene in our series of MKS fetuses, identified 14 novel truncating mutations in 11 cases. These results confirm the involvement of CC2D2A in MKS and reveal a major contribution of CC2D2A to the disease. We also identified three missense CC2D2A mutations in two JBS cases. Therefore, and in accordance with the data reported regarding RPGRIP1L, our results indicate phenotype-genotype correlations, as missense and presumably hypomorphic mutations lead to JBS while all null alleles lead to MKS.

Published

2009

6. A practical approach to the examination of the malformed fetal brain: impact on genetic counselling.

Author

Encha-Razavi F, Gonzalès M, Laquerrière A, Martinovic J, Sinico M, Allias F, Bonnière M, Esculpavit C, Gerard M, Attié-Bitach T, and Vekemans M

Subjects

Brain abnormalities, Brain embryology, Brain pathology, Female, Fetal Development, Humans, Malformations of Cortical Development diagnosis, Mutation genetics, Pregnancy, Genetic Counseling, Malformations of Cortical Development genetics, Malformations of Cortical Development pathology

Abstract

Birth defects of the brain result from malformation and disruptions. They remain an important cause of childhood morbidity and mortality. Effective treatments are scarce and prevention strategies limited. As aetiological screening is costly and uncertain, genetic counselling remains empirical in most cases. A pathological study of the malformed brain is the best approach to establish the diagnosis of a brain malformation. It relies on a thorough description of the brain, including its size, external pattern and/or internal configuration. When evaluating a malformed brain two major factors should be considered: (1) malformations result from an arrest of the development at a given time, interfering with subsequent stages of development, leading to a sequence of malformations where the 'primary event' should be distinguished from 'secondary changes'; (2) there is no obvious causal relationship when the final morphology of the central nervous system is considered. For example, mutations in different genes involved in a signalling pathway may result in a similar pattern of malformations. In addition, signalling pathways may be a possible target of toxic agents, mimicking malformations caused by genetic factors. A precise diagnosis will allow rational aetiological screening, with direct benefit for the family, which may serve other families. In addition, it helps to establish a quality assurance process for medical practice, collect solid epidemiological data and conduct research studies. Because of discrepancies observed between human diseases and animal models, research on human material is mandatory. This requires collection of organs, tissues and cells within a legal and ethical framework.

Published

2008

7. Pleiotropic effects of CEP290 (NPHP6) mutations extend to Meckel syndrome.

Author

Baala L, Audollent S, Martinovic J, Ozilou C, Babron MC, Sivanandamoorthy S, Saunier S, Salomon R, Gonzales M, Rattenberry E, Esculpavit C, Toutain A, Moraine C, Parent P, Marcorelles P, Dauge MC, Roume J, Le Merrer M, Meiner V, Meir K, Menez F, Beaufrère AM, Francannet C, Tantau J, Sinico M, Dumez Y, MacDonald F, Munnich A, Lyonnet S, Gubler MC, Génin E, Johnson CA, Vekemans M, Encha-Razavi F, and Attié-Bitach T

Subjects

Abnormalities, Multiple pathology, Cell Cycle Proteins, Cytoskeletal Proteins, DNA Mutational Analysis, Female, Haplotypes, Humans, Liver pathology, Lod Score, Male, Multicystic Dysplastic Kidney pathology, Mutation, Pedigree, Syndrome, Abnormalities, Multiple genetics, Antigens, Neoplasm genetics, Brain abnormalities, Liver abnormalities, Multicystic Dysplastic Kidney genetics, Neoplasm Proteins genetics, Polydactyly genetics, Portal System abnormalities

Abstract

Meckel syndrome (MKS) is a rare autosomal recessive lethal condition characterized by central nervous system malformations, polydactyly, multicystic kidney dysplasia, and ductal changes of the liver. Three loci have been mapped (MKS1-MKS3), and two genes have been identified (MKS1/FLJ20345 and MKS3/TMEM67), whereas the gene at the MKS2 locus remains unknown. To identify new MKS loci, a genomewide linkage scan was performed using 10-cM-resolution microsatellite markers in eight families. The highest heterogeneity LOD score was obtained for chromosome 12, in an interval containing CEP290, a gene recently identified as causative of Joubert syndrome (JS) and isolated Leber congenital amaurosis. In view of our recent findings of allelism, at the MKS3 locus, between these two disorders, CEP290 was considered a candidate, and homozygous or compound heterozygous truncating mutations were identified in four families. Sequencing of additional cases identified CEP290 mutations in two fetuses with MKS and in four families presenting a cerebro-reno-digital syndrome, with a phenotype overlapping MKS and JS, further demonstrating that MKS and JS can be variable expressions of the same ciliopathy. These data identify a fourth locus for MKS (MKS4) and the CEP290 gene as responsible for MKS.

Published

2007

8. Matthew-Wood syndrome: report of two new cases supporting autosomal recessive inheritance and exclusion of FGF10 and FGFR2.

Author

Martinovic-Bouriel J, Bernabé-Dupont C, Golzio C, Grattagliano-Bessières B, Malan V, Bonnière M, Esculpavit C, Fallet-Bianco C, Mirlesse V, Le Bidois J, Aubry MC, Vekemans M, Morichon N, Etchevers H, Attié-Bitach T, Encha-Razavi F, and Benachi A

Subjects

Abnormalities, Multiple diagnosis, Abnormalities, Multiple pathology, Adult, Anophthalmos diagnosis, Chromosome Disorders diagnosis, Chromosome Disorders pathology, Female, Genes, Recessive, Humans, Male, Microphthalmos diagnosis, Pregnancy, Prenatal Diagnosis, Syndrome, Abnormalities, Multiple genetics, Anophthalmos genetics, Fibroblast Growth Factor 10 genetics, Lung abnormalities, Microphthalmos genetics, Receptor, Fibroblast Growth Factor, Type 2 genetics

Abstract

We describe two fetal cases of microphthalmia/anophthalmia, pulmonary agenesis, and diaphragmatic defect. This rare association is known as Matthew-Wood syndrome (MWS; MIM 601186) or by the acronym "PMD" (Pulmonary agenesis, Microphthalmia, Diaphragmatic defect). Fewer than ten pre- and perinatal diagnoses of Matthew-Wood syndrome have been described to date. The cause is unknown, and the mode of transmission remains unclear. Most cases have been reported as isolated and sporadic, although recurrence among sibs has been observed once. Our two cases both occurred in consanguineous families, further supporting autosomal recessive transmission. In addition, in one family at least one of the elder sibs presented an evocatively similar phenotype. The spatiotemporal expression pattern of the FGF10 and FGFR2 genes in human embryos and the reported phenotypes of knockout mice for these genes spurred us to examine their coding sequences in our two cases of MWS. While in our patients, no causative sequence variations were identified in FGF10 or FGFR2, this cognate ligand-receptor pair and its downstream effectors remain functional candidates for MWS and similar associations of congenital ocular, diaphragmatic and pulmonary malformations., ((c) 2007 Wiley-Liss, Inc.)

Published

2007

9. Antenatal presentation of Bardet-Biedl syndrome may mimic Meckel syndrome.

Author

Karmous-Benailly H, Martinovic J, Gubler MC, Sirot Y, Clech L, Ozilou C, Auge J, Brahimi N, Etchevers H, Detrait E, Esculpavit C, Audollent S, Goudefroye G, Gonzales M, Tantau J, Loget P, Joubert M, Gaillard D, Jeanne-Pasquier C, Delezoide AL, Peter MO, Plessis G, Simon-Bouy B, Dollfus H, Le Merrer M, Munnich A, Encha-Razavi F, Vekemans M, and Attié-Bitach T

Subjects

Base Sequence, DNA Mutational Analysis, Diagnosis, Differential, Encephalocele diagnosis, Encephalocele genetics, Female, Fetus pathology, Humans, Infant, Newborn, Kidney abnormalities, Liver abnormalities, Male, Pedigree, Pregnancy, Prenatal Diagnosis, Syndrome, Abnormalities, Multiple diagnosis, Abnormalities, Multiple genetics, Bardet-Biedl Syndrome diagnosis, Bardet-Biedl Syndrome genetics

Abstract

Bardet-Biedl syndrome (BBS) is a multisystemic disorder characterized by postaxial polydactyly, progressive retinal dystrophy, obesity, hypogonadism, renal dysfunction, and learning difficulty. Other manifestations include diabetes mellitus, heart disease, hepatic fibrosis, and neurological features. The condition is genetically heterogeneous, and eight genes (BBS1-BBS8) have been identified to date. A mutation of the BBS1 gene on chromosome 11q13 is observed in 30%-40% of BBS cases. In addition, a complex triallelic inheritance has been established in this disorder--that is, in some families, three mutations at two BBS loci are necessary for the disease to be expressed. The clinical features of BBS that can be observed at birth are polydactyly, kidney anomaly, hepatic fibrosis, and genital and heart malformations. Interestingly, polydactyly, cystic kidneys, and liver anomalies (hepatic fibrosis with bile-duct proliferation) are also observed in Meckel syndrome, along with occipital encephalocele. Therefore, we decided to sequence the eight BBS genes in a series of 13 antenatal cases presenting with cystic kidneys and polydactyly and/or hepatic fibrosis but no encephalocele. These fetuses were mostly diagnosed as having Meckel or "Meckel-like" syndrome. In six cases, we identified a recessive mutation in a BBS gene (three in BBS2, two in BBS4, and one in BBS6). We found a heterozygous BBS6 mutation in three additional cases. No BBS1, BBS3, BBS5, BBS7, or BBS8 mutations were identified in our series. These results suggest that the antenatal presentation of BBS may mimic Meckel syndrome.

Published

2005

10. Neocortical neuronal arrangement in LIS1 and DCX lissencephaly may be different.

Author

Viot G, Sonigo P, Simon I, Simon-Bouy B, Chadeyron F, Beldjord C, Tantau J, Martinovic J, Esculpavit C, Brunelle F, Munnich A, Vekemans M, and Encha-Razavi F

Subjects

1-Alkyl-2-acetylglycerophosphocholine Esterase, Abortion, Induced, Amino Acid Substitution, Amnion cytology, Brain pathology, Cells, Cultured, Chromosome Banding, Chromosomes, Human, Pair 17, Chromosomes, Human, X, Doublecortin Domain Proteins, Doublecortin Protein, Fetus, Heterozygote, Histidine metabolism, Homozygote, Humans, Karyotyping, Lymphocytes cytology, Male, Mutation, Missense, Brain abnormalities, Microtubule-Associated Proteins genetics, Neocortex cytology, Neurons cytology, Neuropeptides genetics

Abstract

In type I or classical lissencephaly, two genetic causes, namely the LIS1 gene mapping at 17p13.3 and the DCX (doublecortin on X) gene mapping at Xq22.3 are involved. These are considered to act during corticogenesis on radial migratory pathways. The prevailing view is that heterozygous mutations in the LIS1 gene and hemizygous mutations in the DCX gene produce similar histological pattern. The present detailed neuropathological study in two unrelated fetuses with respectively a mutation in the LIS1 and the DCX genes do not confirm this view. In LIS1 mutation, the cortical ribbon displays a characteristic inverted organization, also called "four layered cortex" while in DCX mutation, the cortex displays a roughly ordered "six layered" lamination. Our hypothesis is that mutations of the LIS1 and DCX genes, may not affect the same neuronal arrangement in the neocortex. Because the pathology of proven XLIS is rarely documented, further detailed neuropathological analysis in other cases identified through molecular study would be of a great help in the recognition of neuronal population involved in these migrational disorders and their underlying molecular mechanism., (Copyright 2003 Wiley-Liss, Inc.)

Published

2004

11. [Study of morbidity related to age in patients who have died in hospital].

Author

Delavierre P, Bourdais JP, Esculpavit C, and Justin-Besançon L

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Alzheimer Disease mortality, Female, France epidemiology, Humans, Male, Middle Aged, Morbidity, Retrospective Studies, Aging, Hospital Mortality

Published

1979

12. [Study of morbidity according to age and sex in adult persons deceased at hospital (author's transl)].

Author

Delavierre P, Bourdais JP, Esculpavit C, and Justin-Besançon L

Subjects

Adult, Age Factors, Aged, Disease, Female, Hospitals, Humans, Male, Middle Aged, Paris, Sex Factors, Mortality

Abstract

Studying morbidity according to age and sex in persons decreased at hospital, the authors point out that many illnesses grow in frequency with age. Very often too, illnesses grow in number with age; but this is not constant. At last, this study allows to state the behaviour of old people before illness and the influence of senescence on the terminal evolution.

Published

1979