Un syndrome du cri-du-chat et deux autres enfants polymalformes dans une famille porteuse d'une inversion pericentrique ou d'une insertion au niveau du chromosome 5. [Cri-du-chat syndrome and two other deformed children in a family carrying a pericentric inversion or insertion of chromosome 5]

Chromosomal syndromes may result from extremely small cytogenetic alterations, involving as little as one chromosomal sub-band. An example is the cri-du-chat (cat cry) syndrome, in which the critical deletion appears to involve the sub-bands 5p15.1-3. Aside from a sporadic deletion of 5p, the loss of material may result from an interstitial deletion, caused by the malsegregation of a balanced parental translocation, or, in exceptional cases, as the consequence of a sporadic or familial chromosomal inversion which has been modified by unequal crossing-over (recombination aneuploidy). In addition, in certain children with the clinical syndrome (11 of 331 in a recent review) the deletion cannot be proven cytogenetically and is presumed to be submicroscopic. In the case described here, an intrachromosomal rearrangement of chromosome 5--an invper(5)(p15q14 or 15) or an ins(5) (p15q12q12)--is segregating in the maternal family. Three of the four children born to the couple were abnormal. The first boy, affected with cleft lip, pyloric stenosis and inguinal hernias, died at 4 months of age. The second died at 3 weeks with microcephaly and agenesis of the corpus callosum, cleft palate, heart malformation, and sexual ambiguity. A third boy, now 14 years old, is phenotypically normal and has a normal karyotype. The female proband, seen by us at 9 years of age, showed the clinical features of the cri-du-chat syndrome, with severe psychomotor and staturoponderal retardation, facial dysmorphism, congenital heart defect, and the peculiar voice for which she had received the nickname of "kitten". Her karyotype shows the same variation of chromosome 5 present in her mother and grandmother, characterized on G bands by an additional dark band on 5p15. As there is no evidence for a reciprocal translocation in the mother, the most probable explanation is that of a familial inversion or insertion within chromosome 5. This rearrangement, subject to meiotic modifications, could have been responsible for the complex malformations observed in 3 of the 4 children, including our proband who has a clinical diagnosis of the cri-du-chat syndrome

High incidence of ectopic nucleolar organizer regions in human testicular tumors

Eight primary testicular germ cell tumors, one teratocarcinoma cell line, and one Leydig cell tumor were studied to determine the importance of modifications of the nucleolar organizer regions (NORs) in human testicular tumors. Cytogenetic analysis after silver staining showed active ectopic NORs in two primary embryonal carcinomas (EC) in the cell line and in single cells of each of two seminomas (S). In one EC, an ectopic NOR was localized to chromosomal region 1q4; the others were on unidentified rearranged chromosomes. All tumors in which ectopic NORs were observed were hyperdiploid and possessed marker chromosomes typical of human germ cell tumors. Quantitative DNA analysis was performed on three tumors: a teratocarcinoma (TC) and the Leydig cell tumor, which had provided no analyzable mitoses, and a seminoma which was cytogenetically diploid. In all three cases, the major populations were hyperdiploid. The results, in combination with those of an earlier study, provide evidence that active ectopic NORs are common in human testicular tumors

Familial translocation t(Y;15)(q12;p11) and de novo deletion of the Prader-Willi syndrome (PWS) critical region on 15q11-q13

We describe a 17-year-old girl with mild Prader-Willi syndrome (PWS) due to 15q11-q13 deletion. The deletion occurred on a paternal chromosome 15 already involved in a translocation, t(Y;15)(q12;p11), the latter being present in five other, phenotypically normal individuals in three generations. This appears to be the first case of PWS in which the causative 15q11-q13 deletion occurred on a chromosome involved in a familial translocation, but with breakpoints considerably distal to those of the familial rearrangement. The translocation could predispose to additional rearrangements occurring during meiosis and/or mitosis or, alternatively, the association of two cytogenetic anomalies on the same chromosome could be fortuitous

Angelman syndrome due to paternal uniparental disomy of chromosome 15: A milder phenotype?

The Angelman syndrome (AS) is a neurological disorder characterized by severe mental retardation, absent speech, seizures, gait disturbances, and a typical age-dependent facial phenotype. Most cases are due to an interstitial deletion on the maternally inherited chromosome 15, in the critical region q11–q13. Rare cases also result from paternal uniparental disomy of chromosome 15. In a group of 14 patients with sporadic AS diagnosed in Switzerland, we found 2 unrelated females with paternal isodisomy for the entire chromosome 15. Their phenotypes were milder than usually seen in this syndrome: one girl did not show the typical AS facial changes; both patients had late-onset mild seizures; as they grew older, they had largely undisturbed gross motor functions, in particular no severe ataxia. Both girls were born to older fathers (45 and 43 years old, respectively). The apparent association of a relatively milder phenotype in AS with paternal uniparental disomy will have to be confirmed by detailed clinical descriptions of further patients

Molecular and clinical characteristics in 32 families affected with familial adenomatous polyposis

Germ-line mutations in the 5' half of the Adenomatous Polyposis Coli (APC) gene are found in about 80% of the patients affected with familial adenomatous polyposis (FAP). The vast majority of these are nonsense or frameshift mutations which result in the loss of the carboxyl terminus of the APC protein. Using an in vivo assay in yeast, we have identified pathogenic germ-line mutations in 26 of 32 (81%) unrelated Swiss families affected with FAP. Nine mutations were novel and eight families were shown to harbor two recurrent mutations. Correlations were attempted between the location of APC germ-line mutations and clinical manifestations of the disease

Chromosome mapping of Rett syndrome: a likely candidate region on the telomere of Xq.

Rett syndrome (RS) is a disease of neurological development. First reported 30 years ago in 1966, its biological and genetic basis remains obscure. RS is commonly thought of as an X linked dominant disorder lethal to hemizygous males. The few familial cases would arise through mosaicism or because of occasional females failing to manifest the disorder through skewed X inactivation in relevant cell types. We have one family where the mother and daughter are affected with RS, and which can be explained according to this hypothesis. If the alternative proposal of Thomas (1996) is correct, that the lack of males affected by such disorders is the result of a high male to female ratio of germline mutations rather than of gestational lethality, then the RS gene should be located on the grandpaternal chromosome. Genomic screening with markers covering the whole X chromosome has been performed. Studies using multiple informative markers indicate that the RS locus is likely to be located close to one of the X chromosome telomeres. Further investigations in eight additional families suggest the most likely region for the RS gene to be is the distal part of Xq (Xq28)