De novo and inherited mutations in the X-linked gene CLCN4 are associated with syndromic intellectual disability and behavior and seizure disorders in males and females.

Variants in CLCN4, which encodes the chloride/hydrogen ion exchanger CIC-4 prominently expressed in brain, were recently described to cause X-linked intellectual disability and epilepsy. We present detailed phenotypic information on 52 individuals from 16 families with CLCN4-related disorder: 5 affected females and 2 affected males with a de novo variant in CLCN4 (6 individuals previously unreported) and 27 affected males, 3 affected females and 15 asymptomatic female carriers from 9 families with inherited CLCN4 variants (4 families previously unreported). Intellectual disability ranged from borderline to profound. Behavioral and psychiatric disorders were common in both child- and adulthood, and included autistic features, mood disorders, obsessive-compulsive behaviors and hetero- and autoaggression. Epilepsy was common, with severity ranging from epileptic encephalopathy to well-controlled seizures. Several affected individuals showed white matter changes on cerebral neuroimaging and progressive neurological symptoms, including movement disorders and spasticity. Heterozygous females can be as severely affected as males. The variability of symptoms in females is not correlated with the X inactivation pattern studied in their blood. The mutation spectrum includes frameshift, missense and splice site variants and one single-exon deletion. All missense variants were predicted to affect CLCN4's function based on in silico tools and either segregated with the phenotype in the family or were de novo. Pathogenicity of all previously unreported missense variants was further supported by electrophysiological studies in Xenopus laevis oocytes. We compare CLCN4-related disorder with conditions related to dysfunction of other members of the CLC family.

Facial dysmorphism is influenced by ethnic background of the patient and of the evaluator.

The evaluation of facial dysmorphism is a critical step toward reaching a diagnostic. The aim of the present study was to evaluate the ability to interpret facial morphology in African children with intellectual disability (ID). First, 10 experienced clinicians (five from Africa and five from Europe) rated gestalt in 127 African non-Down Syndrome (non-DS) patients using either the score 2 for 'clearly dysmorphic', 0 for 'clearly non dysmorphic' or 1 for 'uncertain'. The inter-rater agreement was determined using kappa coefficient. There was only fair agreement between African and European raters (kappa-coefficient = 0.29). Second, we applied the FDNA Face2Gene solution to assess Down Syndrome (DS) faces. Initially, Face2Gene showed a better recognition rate for DS in Caucasian (80%) compared to African (36.8%). We trained the Face2Gene with a set of African DS and non-DS photographs. Interestingly, the recognition in African increased to 94.7%. Thus, training improved the sensitivity of Face2Gene. Our data suggest that human based evaluation is influenced by ethnic background of the evaluator. In addition, computer based evaluation indicates that the ethnic of the patient also influences the evaluation and that training may increase the detection specificity for a particular ethnic.

Deletion 2q37.3 and autism: molecular cytogenetic mapping of the candidate region for autistic disorder.

Fine mapping of deletion regions in autistic patients represents a valuable screening tool for identifying candidate genes for autism. A number of studies have ascertained associations between autism and terminal 2q deletion with the breakpoint within 2q37. Here we describe a 12-year-old female patient with terminal 2q37.3 cryptic deletion and autistic behaviour. Her clinical features included hypotonia and feeding difficulties during infancy, coarse face with notably prominent forehead, prominent eyebrows, broad flat nasal bridge and round cheeks, small hands and feet with bilateral brachymetaphalangism, proximal implantation of the thumbs and short toenails, mild mental retardation and autistic behaviour. Recorded autistic features included early lack of eye contact and, during infancy, little social interactions, propensity to be stereotypically busy and to get anxious. In order to more closely delineate the linkage region for autism within 2q37, the findings in this patient were combined to those in 2 previously reported siblings with a well documented 2q37.3 deletion, but without autistic disorder. The exact size of the deleted segment was determined by mapping the deleted region in each group with a series of specific BAC clones linearly ordered on the 2q37 region. The deletion in the autistic patient appeared to be larger [breakpoint flanked by more centromeric clones RP11-680016 (236.9 Mb) and 201F21 (237.4 Mb)] than in the non autistic siblings [more telomeric clones RP11-205L13 (237.8 Mb) and 346114 (238.2 Mb)], revealing a distance of maximum 1.3 Mb between the breakpoints. Accordingly, the extent of the candidate region for susceptibility genes for autism on distal 2q is reduced to maximum 1.3 Mb. Comparison with another well documented autistic patient from the literature results in the same conclusion. These findings represent thus a further step towards identifying genes predisposing to autism.

Partial monosomy 11q and trisomy 12q: variable expression in two siblings.

Clinical and cytogenetical findings are reported and discussed on two siblings with discordant phenotypes despite having both a terminal 11q deletion and a distal 12q duplication resulting from an unbalanced segregation of a balanced translocation t(11:12)(q23:q24.1) mat. The oldest child, a girl, is the index patient. Her clinical features include intrauterine and postnatal growth retardation, fetal distress, mild hypotonia, early feeding difficulties, moderate developmental delay, especially in language acquisition, a velopharyngeal insufficiency with repeated otorhinopharyngeal infections, facial dysmorphism, heart ventricular septal defect, and abnormal hyperactive behaviour with sometimes autistic tendencies. The facial dysmorphic features notably consist of microcephaly, hypertelorism, large palpebral fissures, large eyes with alternant divergent strabismus, long eyelashes, a long and broad nasal bridge, a short "crested" nose with salient tip, a fishmouth with large spaces between teeth and flat palate, retrognathism, large ears and multiple dimples. The second affected child is a boy showing low birthweight, moderate developmental retardation with mainly no active language at 32 months, behaviour abnormalities with an autistic tendency, and no major physical anomalies apart from a slight facial hypotonia with often open mouth, dimples on the shoulders and right cryptorchidism. The authors stress the variable clinical expression of the chromosomal imbalance in this family resulting in low birthweight, developmental delay, abnormal behaviour, but different degrees of physical features and dysmorphism. The possible contribution of each of the two aneusomies to the phenotype is discussed.

Physical map of a 1.5 mb region on 12p11.2 harbouring a synpolydactyly associated chromosomal breakpoint.

Synpolydactyly (SPD) is a rare malformation of the distal limbs known to be caused by mutations in HOXD13. We have previously described a complex form of SPD associated with synostoses in three members of a Belgian family, which co-segregates with a t(12;22)(p11.2;q13.3) chromosomal translocation. The chromosome 12 breakpoint of this translocation maps to 12p11.2 between markers D12S1034 and D12S1596. Here we show that a mutation in the HOXD13 gene is not responsible for the phenotype, and present a physical map of the region around the 12p11.2 breakpoint. Starting from D12S1034 and D12S1596, we have established a contig approximately 1.5 Mb in length, containing 13 YAC clones, 16 BAC clones, and 11 cosmid clones. FISH analysis shows that cosmid LL12NCO1-149H4 maps across the breakpoint, and Southern blot experiments using fragments of this cosmid as probes identify a rearranged BamHI fragment in the patients carrying the translocation. A search for expressed sequences within the contig have so far revealed one CpG island, seven anonymous ESTs and three previously characterised genes, DAD-R, KRAG and HT21, all of which were found not to be directly disrupted by the translocation. The gene represented by EST R72964 was found to be disrupted by the translocation. These findings lay the groundwork for further efforts to characterise a gene critical for normal distal limb development that is perturbed by this translocation.

Dicentric chromosome 9 due to tandem duplication of the 9p11-q13 region: unusual chromosome 9 variant.

We report on a 31-year-old mentally retarded woman with minor facial anomalies and a heteromorphic chromosome 9 with tandem duplication of the 9p11-q13 pericentromeric region. To the best of our knowledge, this is the first report of tandem duplication of this region. An identical chromosome 9 morphology was found in the healthy and phenotypically normal sister of the proposita. The usefulness of double-color FISH techniques and the presumed mechanism accounting for the origin of the chromosomal anomaly and for the phenotypic discordance observed between the two sisters are discussed.

Cri du chat syndrome: changing phenotype in older patients.

The cri du chat syndrome or 5p deletion syndrome is a well-delineated clinical entity and has an incidence of 1/50,000 in newborn infants. A de novo deletion is present in 85% of the patients. Ten to 15% are familial cases with more than 90% due to a parental translocation and 5% due to an inversion of chromosome 5. Although the size of the deleted segment varies, the critical segment that is deleted in all patients appears to be 5p15.2. The clinical picture is well known in younger patients and includes the typical high-pitched cry, psychomotor retardation, microcephaly, growth rate failure, and craniofacial abnormalities including round face, hypertelorism, broad nasal bridge, downward slanting palpebral fissures, and micrognathia. With advancing age, the clinical picture becomes less striking. We present seven patients with 5p deletion syndrome, who were between age 16 and 47 years. Comparing their phenotype at several ages, a change of their phenotype was noted. Some of the clinical characteristics became more evident such as long face, macrostomia, and scoliosis. All patients were severely or profoundly mentally retarded except one patient who was mildly mentally retarded. The diagnosis was difficult to make in some of the patients who were first seen at an older age. In some of them, the craniofacial appearance resembled that seen in Angelman syndrome. Most patients had periods of destructive behavior, self mutilation, and aggression. The clinical diagnosis should be confirmed as soon as possible with cytogenetic investigation to provide specific support, prevention, and treatment of complications. Therefore, it is important to perform follow-up studies in young children to determine their outcome after infant-stimulation programs.

Cryptic translocation t(5;18) in familial mental retardation.

A cryptic translocation t(5;18)(qter;qter) was detected in a large family, using a FISH-based approach combining subtelomeric probes to allow the subtelomeric regions of most chromosome ends to be analysed for deletions and balanced or unbalanced translocations. Unbalanced karyotypes (duplication 5qter/deficiency 18qter) resulted in a previously undescribed association of moderate to severe mental retardation, microcephaly, pre- and postnatal growth retardation, distinct facial dysmorphism, narrow auditory canals, genital hypoplasia, left heart hypoplasia in one patient and severe behaviour difficulties in another. Some of the features observed in affected individuals are characteristic of known syndromes involving either 18q (growth deficiency, nystagmus, narrow auditory canals, genital hypoplasia, behaviour problems in 18q deletion syndrome) or 5q (umbilical and inguinal hernias, congenital heart defects in distal 5q trisomy).

Regional localization of a gene for nonspecific XLMR to Xp11.3-p11. 23 (MRX51) and tentative localization of an MRX gene to Xq23-q26.1.

Two families with nonspecific X-linked mental retardation (MRX) are presented. In the first family, MRX51, three male patients showed mild to borderline mental retardation. Multipoint linkage analysis yielded a maximal LOD score of 2.10 between markers DXS8012 and DXS1003, localizing the MRX51 gene at Xp11.3-p11.23. In the second family, XLMR7, three men showed moderate mental retardation (MR), and one possible female carrier had mild MR. Multipoint linkage analysis yielded an LOD score of 1.80 between markers DXS8063 and DXS1047, situating the disease gene at Xq23-q26.1. When the analysis was performed considering the affected female to be an expressing heterozygote carrier of the disease mutation, a maximal LOD score of 2.10 was found in the same region.

Partial DiGeorge syndrome in two patients with a 10p rearrangement.

We describe 2 patients with a partial DiGeorge syndrome (facial dysmorphism, hypoparathyroidism, renal agenesis, mental retardation) and a rearrangement of chromosome 10p. The first patient carries a complex chromosomal rearrangement, with a reciprocal insertional translocation between the short arm of chromosome 10 and the long arm of chromosome 8, with karyotype 46, XY ins(8;10) (8pter 8q13::10p15-->10p14::8q24.1-->8qter) ins(10:8) (10pter--> 10p15::8q24.1-->8q13::10p14-->10qter). The karyotype of the second patient shows a terminal deletion of the short arm of chromosome 10. In both patients, the breakpoints on chromosome 10p reside outside the previously determined DiGeorge critical region II (DGCRII). This is in agreement with previous reports of patients with a terminal deletion of 10p with breakpoints distal to the DGCRII and renal malformations/hypoparathyroidism, and thus adds to evidence that these features may be caused by haploinsufficiency of one or more genes distal to the DGCRII.

Triplication of distal chromosome 10q.

We describe a patient with a de novo chromosomal aberration with karyotype 46,XY,10q+, presenting clinical features of partial duplication of distal chromosome 10q. Further studies using microsatellites and FISH showed a triplication of distal chromosome 10q. The rearrangement involved both maternal homologues and the middle chromosomal 10q fragment of the triplication was inverted, similar to previously reported chromosomal triplications. Chromosomal triplications may be more frequent than assumed and may share a common molecular mechanism.

Further delineation of the KBG syndrome.

Further Delineation of the KBG syndrome: We present a mother and her daughter with clinical features of KBG syndrome, including mild mental retardation, distinct facial features, macrodontia and skeletal anomalies. In the daughter, a heart defect (ventricular septal defect) was present.

Severe mental retardation-distal arthrogryposis in the upper limbs and complex chromosomal rearrangements resulting from a 10q25-->qter deletion.

We present the first report of chromosomal rearrangement involving chromosomes 4, 10 and 12. The proband was a 42-year-old woman with severe mental retardation and multiple congenital anomalies. The most striking physical anomalies were upper limb contractures resulting in distal arthrogryposis. As upper limb flexion contractures have been previously reported in individuals with partial distal 10q deletion, this sign should be considered as part of the clinical manifestations of 10q25-->qter monosomy.

A recognisable behavioural phenotype associated with terminal deletions of the short arm of chromosome 8.

We report the clinical findings in 5 patients with a terminal deletion of the short arm of chromosome 8. Mild developmental delay was constantly present, in association with microcephaly in 4 of 5 patients. Facial anomalies were mild or absent. A congenital heart defect was present in 3 patients: an atrioventricular septal defect (AVSD) in 2 and an atrial septal defect type II (ASDII) with pulmonary stenosis in one. A highly similar pattern of behavioural difficulties was present in the 3 older children (8-11 years), with outbursts of aggressiveness and destructive behaviour. Follow-up in one patient showed that at the age of 16 years, these behavioural problems had largely disappeared. This observation suggests that in addition to mental retardation, microcephaly, congenital heart defect (typically AVSD), a terminal deletion of chromosome 8p may be associated with a characteristic behavioural phenotype during childhood.

Trisomy 15 rescue with jumping translocation of distal 15q in Prader-Willi syndrome.

We report a patient with Prader-Willi syndrome (PWS) and mosaicism for a de novo jumping translocation of distal chromosome 15q, resulting in partial trisomy for 15q24-qter. A maternal uniparental heterodisomy for chromosome 15 was present in all cells, defining the molecular basis for the PWS in this patient. The translocated distal 15q fragment was of paternal origin and was present as a jumping translocation, involving three different translocation partners, chromosomes 14q, 4q, and 16p. The recipient chromosomes appeared cytogenetically intact and interstitial telomere DNA sequences were present at the breakpoint junctions. This strongly suggests that the initial event leading to the translocation of distal 15q was a non-reciprocal translocation, with fusion between the 15q24 break-point and the telomeres of the recipient chromosomes. These observations are best explained by a partial zygotic trisomy rescue and comprise a previously undescribed mechanism leading to partial trisomy.