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

Cornelia de Lange syndrome is a multisystemic developmental disorder mainly related to de novo heterozygous NIPBL mutation. Recently, NIPBL somatic mosaicism has been highlighted through buccal cell DNA study in some patients with a negative molecular analysis on leukocyte DNA. Here, we present a series of 38 patients with a Cornelia de Lange syndrome related to a heterozygous NIPBL mutation identified by Sanger sequencing. The diagnosis was based on the following criteria: (i) intrauterine growth retardation and postnatal short stature, (ii) feeding difficulties and/or gastro-oesophageal reflux, (iii) microcephaly, (iv) intellectual disability, and (v) characteristic facial features. We identified 37 novel NIPBL mutations including 34 in leukocytes and 3 in buccal cells only. All mutations shown to have arisen de novo when parent blood samples were available. The present series confirms the difficulty in predicting the phenotype according to the NIPBL mutation. Until now, somatic mosaicism has been observed for 20 cases which do not seem to be consistently associated with a milder phenotype. Besides, several reports support a postzygotic event for those cases. Considering these elements, we recommend a first-line buccal cell DNA analysis in order to improve gene testing sensitivity in Cornelia de Lange syndrome and genetic counselling.

Mutation analysis and embryonic expression of the HLXB9 Currarino syndrome gene.

The HLXB9 homeobox gene was recently identified as a locus for autosomal dominant Currarino syndrome, also known as hereditary sacral agenesis (HSA). This gene specifies a 403-amino acid protein containing a homeodomain preceded by a very highly conserved 82-amino acid domain of unknown function; the remainder of the protein is not well conserved. Here we report an extensive mutation survey that has identified mutations in the HLXB9 gene in 20 of 21 patients tested with familial Currarino syndrome. Mutations were also detected in two of seven sporadic Currarino syndrome patients; the remainder could be explained by undetected mosaicism for an HLXB9 mutation or by genetic heterogeneity in the sporadic patients. Of the mutations identified in the 22 index patients, 19 were intragenic and included 11 mutations that could lead to the introduction of a premature termination codon. The other eight mutations were missense mutations that were significantly clustered in the homeodomain, resulting, in each patient, in nonconservative substitution of a highly conserved amino acid. All of the intragenic mutations were associated with comparable phenotypes. The only genotype-phenotype correlation appeared to be the occurrence of developmental delay in the case of three patients with microdeletions. HLXB9 expression was analyzed during early human development in a period spanning Carnegie stages 12-21. Signal was detected in the basal plate of the spinal cord and hindbrain and in the pharynx, esophagus, stomach, and pancreas. Significant spatial and temporal expression differences were evident when compared with expression of the mouse Hlxb9 gene, which may partly explain the significant human-mouse differences in mutant phenotype.

[Ascites with "activated" lymphocytes in a case of hydrops fetalis related to a parvovirus B19 infection]. / Ascite avec lymphocytes "activés" dans un cas d'anasarque foetale liée à une infection par le parvovirus B19.

A case of non immunologic hydrops fetalis associated with parvovirus B19 infection is reported. Viral etiology was suspected by the pattern of overstimulated lymphocytes in fetal ascites and confirmed later by identification of parvovirus B19 by PCR. The cytologic finding center helps the precocious diagnosis.

[Contribution of molecular biology to the prevention of cystic fibrosis. Experience in Lyon]. / Apport de la biologie moléculaire à la prévention génétique de la mucoviscidose. A propos de l'expérience lyonnaise.

Enzymatic prenatal diagnosis of cystic fibrosis was performed in 113 amniotic fluids and DNA polymorphism was studied in 104 families, including 28 cases with prenatal material analysis. According to the results, the enzymatic diagnosis should be cautiously interpreted when the risk is less than 1/4. In these situations DNA analysis in the parents is very helpful to assess the reliability of enzymatic diagnosis.