Mylène Valduga

A retrospective study by oligonucleotide array‐CGH analysis in 50 fetuses with multiple malformations

To retrospectively define the frequency and the nature of submicroscopic chromosomal imbalances among fetuses with multiple congenital anomalies (MCA).

WWOX-related encephalopathies: delineation of the phenotypical spectrum and emerging genotype-phenotype correlation

Background Homozygous mutations in WWOX were reported in eight individuals of two families with autosomal recessive spinocerebellar ataxia type 12 and in two siblings with infantile epileptic encephalopathy (IEE), including one who deceased prior to DNA sampling. Methods By combining array comparative genomic hybridisation, targeted Sanger sequencing and next generation sequencing, we identified five further patients from four families with IEE due to biallelic alterations of WWOX. Results We identified eight deleterious WWOX alleles consisting in four deletions, a four base-pair frameshifting deletion, one missense and two nonsense mutations. Genotype-phenotype correlation emerges from the seven reported families. The phenotype in four patients carrying two predicted null alleles was characterised by (1) little if any psychomotor acquisitions, poor spontaneous motility and absent eye contact from birth, (2) pharmacoresistant epilepsy starting in the 1st weeks of life, (3) possible retinal degeneration, acquired microcephaly and premature death. This contrasted with the less severe autosomal recessive spinocerebellar ataxia type 12 phenotype due to hypomorphic alleles. In line with this correlation, the phenotype in two siblings carrying a null allele and a missense mutation was intermediate. Conclusions Our results obtained by a combination of different molecular techniques undoubtedly incriminate WWOX as a gene for recessive IEE and illustrate the usefulness of high throughput data mining for the identification of genes for rare autosomal recessive disorders. The structure of the WWOX locus encompassing the FRA16D fragile site might explain why constitutive deletions are recurrently reported in genetic databases, suggesting that WWOX-related encephalopathies, although likely rare, may not be exceptional.

Clinical and molecular characterization of a large family with an interstitial 15q11q13 duplication

The clinical significance of an interstitial duplication of chromosome 15q11q13 is still not well documented. This abnormality has been associated with autistic spectrum disorders (ASD) and varying degrees of mental retardation. The clinical variability appears to be influenced by the parental origin of the duplication. We present here the clinical evaluation and psychological assessment of the largest reported family with 12 carriers on three generations. Patients exhibit mental retardation, motor and visuo‐motor skills impairments and adaptive functioning deficit without formal diagnosis of autism. There appeared to be evidence in the family of reduced penetrance in duplication of paternal origin. This familial 15q11q13 duplication was precisely investigated by cytogenetic and molecular techniques including fluorescence in situ hybridization (FISH), PCR analysis of microsatellite markers, array‐comparative genomic hybridization analysis (Array‐CGH) and semi‐quantitative methylation‐sensitive PCR. Results showed an inherited 15q11q13 duplication of maternal origin in 10 patients and of paternal origin in the remaining two. The size of the duplicated area was around 6 Mb with breakpoints in accordance with those previously reported. This report extends the clinical spectrum of the 15q11q13 duplication, and we recommend the investigation of 15q11q13 duplication not only in subjects with autistic spectrum disorder but also in patients with low normal intelligence and dyspraxia.

A French multicenter study of over 700 patients with 22q11 deletions diagnosed using FISH or aCGH

Although 22q11.2 deletion syndrome (22q11.2DS) is the most recurrent human microdeletion syndrome associated with a highly variable phenotype, little is known about the condition’s true incidence and the phenotype at diagnosis. We performed a multicenter, retrospective analysis of postnatally diagnosed patients recruited by members of the Association des Cytogénéticiens de Langue Française (the French-Speaking Cytogeneticists Association). Clinical and cytogenetic data on 749 cases diagnosed between 1995 and 2013 were collected by 31 French cytogenetics laboratories. The most frequent reasons for referral of postnatally diagnosed cases were a congenital heart defect (CHD, 48.6%), facial dysmorphism (49.7%) and developmental delay (40.7%). Since 2007 (the year in which array comparative genomic hybridization (aCGH) was introduced for the routine screening of patients with intellectual disability), almost all cases have been diagnosed using FISH (96.1%). Only 15 cases (all with an atypical phenotype) were diagnosed with aCGH; the deletion size ranged from 745 to 2904 kb. The deletion was inherited in 15.0% of cases and was of maternal origin in 85.5% of the latter. This is the largest yet documented cohort of patients with 22q11.2DS (the most commonly diagnosed microdeletion) from the same population. French cytogenetics laboratories diagnosed at least 108 affected patients (including fetuses) per year from among a national population of ∼66 million. As observed for prenatal diagnoses, CHDs were the most frequently detected malformation in postnatal diagnoses. The most common CHD in postnatal diagnoses was an isolated septal defect.

Severe sex differentiation disorder in a boy with a 3.8 Mb 10q25.3–q26.12 microdeletion encompassing EMX2

The molecular basis of male disorders of sex development (DSD) remains unexplained in a large number of cases. EMX2 has been proposed to play a role in the masculinization process for the past two decades, but formal evidence for this causal role is scarce. The aim of this study is to yield additional support to this hypothesis by reporting on a male patient who presented with 46,XY DSD, a single kidney, intellectual disability, and the smallest microdeletion including EMX2 reported to date. EMX2 haploinsufficiency is likely to explain the masculinization defect observed in our patient, similar to what has been described in the mouse. In the case of cytogenetically diagnosed cases, deletions of EMX2 have been associated with a wide range of DSD, ranging from hypospadias to complete sex reversal.

WWOX and severe autosomal recessive epileptic encephalopathy: first case in the prenatal period

WWOX has been recently implicated in autosomal recessive spinocerebellar ataxia type 12 (SCAR12) and severe early-onset epileptic encephalopathy (EOEE). By array comparative genomic hybridization, we identified a 0.6 Mb homozygous deletion in 16q23.1 in a fetus presenting with brain anomalies. His older sister who died at the age of 22 months from an EOEE was also homozygous for the copy number variations in 16q23.1. This deletion includes the first six exons of WWOX and results in a null genotype in homozygous patients. This family gives additional support for the implication of WWOX in severe EOEEs. We report for the first time prenatal ultrasound findings in a fetus with a WWOX-null genotype. Our study expands the range of brain abnormalities in WWOX-related EOEEs. This additional family confirms the genotype–phenotype correlation with WWOX-null alleles associated with the most severe form of WWOX-related epileptic encephalopathy with premature death.

Pregnancy outcomes of prenatally diagnosed Turner syndrome: a French multicenter retrospective study including a series of 975 cases

The objectives of this study were to report pregnancy outcomes after prenatal diagnosis of Turner syndrome (TS) and to compare and assess termination of pregnancy rates during two periods. The intervals selected were before and after 1997 when multidisciplinary centers for prenatal diagnosis (MCPDs) were established in France.

Fortuitous FISH diagnosis of an interstitial microdeletion (5)(q31.1q31.2) in a girl suspected to present a cri-du-chat syndrome.

Constitutional interstitial deletions of 5q are relatively rare and most are poorly characterized cytogenetically. Consequently a definite karyotype–phenotype correlation is difficult to establish. We report on a new case of a girl presenting with an abnormal cry, upslanting palpebral fissures, hypertelorism, anteverted nostrils, microretrognathia, growth retardation, and an adenoid cyst at the base of the tongue. The first suspected diagnosis was cri‐du‐chat syndrome because of the mewing cry. Standard cytogenetic analyses were interpreted as normal, but FISH studies using the probe of cri‐du‐chat syndrome with the control probe EGR1 (5q31.2)/D5S23 (Abbott) revealed a 5q31.2 microdeletion which was then confirmed by CGH‐array (Abbott). FISH studies using PACs and BACs clones (Rocchi, Italia) enabled us to characterize the breakpoints of the deleted region. Cytogenetic analysis with FISH studies revealed a normal karyotype with normal 5q31 region in both parents. This case is compared with the other cases reported in the literature.

TCF12 microdeletion in a 72-year-old woman with intellectual disability.

Heterozygous mutations in TCF12 were recently identified as an important cause of craniosynostosis. In the original series, 14% of patients with a mutation in TCF12 had significant developmental delay or learning disability. We report on the first case of TCF12 microdeletion, detected by array‐comparative genomic hybridization, in a 72‐year‐old patient presenting with intellectual deficiency and dysmorphism. Multiplex ligation‐dependent probe amplification analysis indicated that exon 19, encoding the functionally important basic helix‐loop‐helix domain, was included in the deleted segment in addition to exon 20. We postulate that the TCF12 microdeletion is responsible for this patients intellectual deficiency and facial phenotype.

Additional evidence to support the role of the 20q13.33 region in susceptibility to autism

Additional Evidence to Support the Role of the 20q13.33 Region in Susceptibility to Autism Anne-Laure Mosca-Boidron,* Myl ene Valduga, Christel Thauvin-Robinet, Nathalie Lagarde, Nathalie Marle, C eline Henry, Jean-Michel Pinoit, Fr ed eric Huet, Myl ene B eri-Deixheimer, Cl emence Ragon, Lucie Gueneau, Muriel Payet, Patrick Callier, Francine Mugneret, Philippe Jonveaux, and Laurence Faivre Laboratoire de Cytog en etique, CHU Dijon, France Laboratoire de G en etique, EA 4002, CHU, Nancy-University, Dijon, France Centre de G en etique et centre de r ef erence maladies rares anomalies du d eveloppement et syndromes malformatifs, CHU Dijon, France Centre de Ressources Autismes de Bourgogne, CHU Dijon, France Equipe G en etique et Anomalies du D eveloppement, Universit e de Bourgogne, Facult e de M edecine, Dijon, France