Delineation of the common critical region in Williams syndrome and clinical correlation of growth,heart defects,ethnicity, and parental origin

Williams syndrome (WS) is a neurodevelopmental disorder with a variable phenotype. Molecular genetic studies have indicated that hemizygosity at the elastin locus (ELN) may account for the cardiac abnormalities seen in WS, but that mental retardation and hypercalcemia are likely caused by other genes flanking ELN. In this study, we defined the minimal critical deletion region in 63 patients using 10 microsatellite markers and 5 fluorescence in situ hybridization (FISH) probes on chromosome 7q, flanking ELN. The haplotype analyses showed the deleted cases to have deletions of consistent size, as did the FISH analyses using genomic probes for the known ends of the commonly deleted region defined by the satellite markers. In all informative cases deleted at ELN, the deletion extends from D7S489U to D7S1870. The genetic distance between these two markers is about 2 cM. Of the 51 informative patients with deletions, 29 were maternal and 22 were paternal in origin. There was no evidence for effects on stature by examining gender, ethnicity, cardiac status, or parental origin of the deletion. Heteroduplex analysis for LIMK1, a candidate gene previously implicated in the WS phenotype, did not show any mutations in our WS patients not deleted for ELN. LIMK1 deletions were found in all elastin-deletion cases who had WS. One case, who has isolated, supravalvular aortic stenosis and an elastin deletion, was not deleted for LIMK1. It remains to be determined if haploinsufficiency of LIMK1 is responsible in part for the WS phenotype or is simply deleted due to its close proximity to the elastin locus. Am. J. Med. Genet. 78:82–89, 1998. © 1998 Wiley-Liss, Inc.     

GTF2I hemizygosity implicated in mental retardation in Williams syndrome: genotype-phenotype analysis of five families with deletions in the Williams syndrome region

Most individuals with Williams syndrome (WS) have a 1.6 Mb deletion in chromosome 7q11.23 that encompasses the elastin (ELN) gene, while most families with autosomal dominant supravalvar aortic stenosis (SVAS) have point mutations in ELN. The overlap of the clinical phenotypes of the two conditions (cardiovascular disease and connective tissue abnormalities such as hernias) is due to the effect of haploinsufficiency of ELN. SVAS families often have affected individuals with some WS facial features, most commonly in infancy, suggesting that ELN plays a role in WS facial gestalt as well. To find other genes contributing to the WS phenotype, we studied five families with SVAS who have small deletions in the WS region. None of the families had mental retardation, but affected family members had the Williams Syndrome Cognitive Profile (WSCP). All families shared a deletion of LIMK1, which encodes a protein strongly expressed in the brain, supporting the hypothesis that LIMK1 hemizygosity contributes to impairment in visuospatial constructive cognition. While the deletions from the families nearly spanned the WS region, none had a deletion of FKBP6 or GTF2I, suggesting that the mental retardation seen in WS is associated with deletion of either the centromeric and/or telomeric portions of the region. Comparison of these five families with reports of other individuals with partial deletions of the WS region most strongly implicates GTF2I in the mental retardation of WS.     

Mosaic Williams syndrome: A case report

Williams syndrome (WS) is a well-known genetic disorder caused by heterozygous microdeletions of the 7q11.23 chromosome region. The main clinical features of the syndrome are characteristic facial dysmorphisms, cardiovascular and endocrine anomalies, short stature, mild-to-moderate intellectual disability, and a recognizable cognitive and behavioral profile. Differently from large chromosomal imbalances and aneuploidies, mosaicism has only rarely been found in microdeletion syndromes, and mosaic cases with WS phenotype have never been reported. We here describe a 51-year-old female patient with the typical clinical features of WS, whose chromosomal microarray analysis and fluorescence in situ hybridization disclosed a 54%–68% germline mosaicism for 7q11.23 deletion.     

A gene-dosage PCR method for the detection of elastin gene deletions in patients with Williams syndrome

Williams syndrome (WS) is a multisystem developmental disorder associated with microdeletions at 7q11.23 that involve several genes, including the elastin gene. Using genomic DNA from a panel of normal individuals and WS patients with established hemizygosity of the elastin gene locus, we have developed a quantitative polymerase chain reaction (PCR)-based gene-dosage assay that rapidly detects the loss of one allele of the elastin gene. Using this procedure, we also studied a family in which the proband was previously diagnosed with WS and her mother with a balanced 7q translocation [t(7:11)(q34;q13)]. Using DNA isolated from buccal smears obtained from several individuals in this family we were able to establish normal disomy at 7q in all family members except for the proband, in which we established hemizygosity at the elastin gene locus. We were also able to successfully infer normal disomy in an unborn child in this family. The rapid diagnostic procedure described here may have a variety of applications, including fine mapping of deletion breakpoints at 7q11.23 associated with WS.     

Williams syndrome: from genotype through to the cognitive phenotype

Williams syndrome, due to a contiguous gene deletion at 7q11.23, is associated with a distinctive facial appearance, cardiac abnormalities, infantile hypercalcemia, and growth and developmental retardation. The deletion is approximately 1.5Mb and includes approximately 17 genes. Large repeats containing genes and pseudogenes flank the deletion breakpoints, and the mutation mechanism commonly appears to be unequal meiotic recombination. Elastin hemizygosity is associated with supravalvular aortic stenosis and other vascular stenoses. LIM Kinase 1 hemizygosity may contribute to the characteristic cognitive profile. The relationship of the other deleted genes to phenotypic features is not known. People with Williams syndrome tend to be over friendly-though anxious-and lack social judgement skills. They exhibit an uneven cognitive-linguistic profile together with mild to severe mental retardation. Analysis of the cognitive phenotype based on analyses of the mental processes underlying overt behavior demonstrates major differences between normal and WS subjects although for some areas, such as face processing, WS subjects can achieve near normal scores. Cognitive analysis of patients with small deletions in 7q11.23 which include elastin and LIM Kinase 1 have revealed varying results and it is premature to draw genotype-phenotype correlations.     

Retinoblastoma and mental retardation microdeletion syndrome: clinical characterization and molecular dissection using array CGH

We describe three patients with retinoblastoma, dysmorphic features and developmental delay. Patients 1 and 2 have high and broad forehead, deeply grooved philtrum, thick anteverted lobes and thick helix. Patient 1 also has dolicocephaly, sacral pit/dimple and toe crowding; patient 2 shows intrauterine growth retardation and short fifth toe. Both patients have partial agenesis of corpus callosum. Patient 3 has growth retardation, microcephaly, thick lower lip and micrognathia. Using array-comparative genomic hybridization (CGH), we identified a 13q14 de novo deletion in patients 1 and 2, while patient 3 had a 7q11.21 maternally inherited deletion, probably not related to the disease. Our results confirm that a distinct facial phenotype is related to a 13q14 deletion. Patients with retinoblastoma and malformations without a peculiar facial phenotype may have a different deletion syndrome or a casual association of mental retardation and retinoblastoma. Using array-CGH, we defined a critical region for mental retardation and dysmorphic features. We compared this deletion with a smaller one in a patient with retinoblastoma (case 4) and identified two distinct critical regions, containing 30 genes. Four genes appear to be good functional candidates for the neurological phenotype: NUFIP1 (nuclear fragile X mental retardation protein 1), HTR2A (serotonin receptor 2A), PCDH8 (prothocaderin 8) and PCDH17 (prothocaderin 17).     

Presenting phenotype and clinical evaluation in a cohort of 22 Williams-Beuren syndrome patients

Williams-Beuren syndrome (WS) is a rare multi-system genomic disorder, caused by 7q11.23 microdeletion with a prevalence of 1/7500-1/20,000 live births. Clinical phenotype includes typical facial dysmorphism (elfin face), mental retardation associated with a peculiar neuropsychological profile and congenital heart defects. We investigated 22 WS patients (mean age of 9.7 years, range 1 day to 39 years) with a multi-specialist follow-up protocol comprehensive of neuropsychological, cardiologic, nephrologic, ophthalmologic, endocrinologic, gastroenterologic, odontostomatologic and orthopaedic evaluations. The mean age at diagnosis was 5.38 years, being 1.02 years when genetic evaluation was requested for congenital heart defects (CHD) and 10.68 years in case of mental retardation and/or abnormal neuropsychological profile without an evident CHD. All patients showed facial dysmorphisms, with supravalvular aortic stenosis (SVAS) as the most common cardiovascular anomaly (12/22), followed by peripheral pulmonary stenosis (9/22); interestingly, in one patient we detected a total anomalous pulmonary venous return (TAPVR), confirming the possible association of this rare CHD with WS. Hypertension was detected by 24-h ambulatory blood pressure monitoring in 7/22 cases. A cognitive assessment was performed in 13 patients older than 6 years, showing various degrees of mental retardation in 12 and a normal intelligence quotient (IQ) in a single patient; evaluation of developmental milestones revealed various grades of developmental delay in all the patients younger than 6 years. Chiari malformation type 1 was found in 3 patients. Our study underlines a remarkable diagnostic delay in patients who present to genetic evaluation because of mental retardation and/or peculiar neuropsychological profile lacking an evident cardiopathy and confirms the multi-systemic nature of WS leading to a high clinical presentation's variability and complex follow-up strategies.     

Detection of an atypical 7q11.23 deletion in Williams syndrome patients which does not include the STX1A and FZD3 genes

We present two patients with the full Williams syndrome (WS) phenotype carrying a smaller deletion than typically observed. The deleted region spans from the elastin gene to marker D7S1870. This observation narrows the minimal region of deletion in WS and suggests that the syntaxin 1A and frizzled genes are not responsible for the major features of this developmental disorder and provides important insight into understanding the genotype-phenotype correlation in WS.     

Central precocious puberty in a girl with Williams syndrome: the result of treatment with GnRH analogue

Williams syndrome (WS) is a well-known microdeletion syndrome characterized by specific facial features, retardation in growth and development, typical personality and cardiac defects. Poor growth potential is further affected by central precocious puberty (CPP) which is frequent in these patients. A WS patient with CPP is presented, whose pubertal development and bone age progression were arrested by administration of GnRH analogues. The case is reported to discuss the role of GnRH analogues for management of CPP in patients with WS.     

BAZ1B is a candidate gene responsible for hypothyroidism in Williams syndrome

Williams syndrome (WS) is a rare neurodevelopmental disorder associated to a hemizygous deletion of 28 genes located on chromosome 7q11.23. WS affected subjects frequently suffer from several endocrine abnormalities including hypothyroidism due to defects in thyroid morphology. To date, several genes involved in thyroid dysgenesis have been identified, nonetheless, none of them is located in the 7q11.23 region. Thus, the hypothyroidism-linked molecular features in WS are not yet known. In this study we focused on one of the WS deleted gene, BAZ1B, demonstrating that its downregulation in thyroid cells leads to cell viability and survival decrement. Taking together, our results show that BAZ1B could be the mainly responsible for thyroid defects observed in some of WS patients and that these alterations are activated by PTEN-mediated mechanisms.     

Clinical and molecular cytogenetic analysis of a family with mental retardation caused by an unbalanced translocation involving chromosomes 3 and 22北大核心CSCD

Objective To explore the genetic cause of a Chinese boy with unexplained mental retardation, and analyzethe pattern of inheritance for his family. Methods Routine karyotyping, chromosomal microarray analysis (CMA),and fluorescence in situ hybridization (FISH) were used to detect chromosome abnormalities in the patient andhis families. Results Chromosome analysis suggested that the proband and 7 affected individuals had anidentical karyotype 46,XN,der(22)t(3;22)(q28;ql3)pat, while his father and 5 other relatives carried a samekaryotype of 46, XN, t(3;22) (q28;ql3). His mother and other family members were normal. CMA analysis confirmed that the patient had a 9. 0 Mb duplication at 3q28q29, in addition with a 1. 7 Mb deletion at 22ql3. 3. Aboveresults were confirmed by FISH. Conclusion The abnormal phenotypes of the proband and his family members fromfive generations have conformed to those of 3q duplication and 22ql3. 3 deletion caused by unbalancedtranslocation involving chromosomes 3q and 22q. The presence of multiple patients in this family may beattributed to abnormal gametes produced by parental balanced translocations involving 3q and 22q.     

Chromosome 18q paracentric inversion in a family with mental retardation and hearing loss

We report on a mother and child with a paracentric inversion of the long arm of chromosome 18: 46,XX,inv(18)(q21.1q23). The child had findings in common with those seen in 18q- syndrome including: microcephaly, epicanthal folds, midface hypoplasia, and abnormally modeled ears, dermatoglyphic whorls on fingertips, clubfeet, hearing loss, and developmental delay. The mother and several maternal relatives had mild mental retardation and hearing loss. Magnetic resonance imaging of the child's brain showed abnormal myelination. Molecular studies including PCR-based markers for the MBP locus and fluorescent in situ hybridization with a P1 genomic clone on mother and child demonstrated only one copy of the MBP locus (18q23) with the deletion extending beyond the MBP locus. Therefore, the deletion in the MBP region may account for the abnormal myelination seen in the patient. The other clinical findings, including mental retardation and hearing loss in this family, may reflect disruption of distal or proximal genes within the deleted MBP region or at the more proximal breakpoint 18q21.1, and may represent a contiguous gene syndrome. Further study of this family may help define those genes functioning in the MBP region that contribute to the phenotype of 18q- syndrome. Am. J. Med. Genet. 76:372–378, 1998. © 1998 Wiley-Liss, Inc.     

Cebocephaly-holoprosencephaly in a newborn girl with a terminal 7q deletion [46,XX,del(7)(pter→q32:)]

Cytogenetic study of a day-old infant showed a terminal del(7q): 46,XX,del(7)(pter→q32:). This infant had cebocephaly with holoprosencephaly. These clinical findings are atypical for the 7q – syndrome, in which patients usually have growth and mental retardation with few facial abnormalities.     

Williams syndrome in adults

There are few published reports of adults with Williams syndrome (WS). We have evaluated ten adult WS patients. The patients in our study were very variable in clinical presentation, ranging from severely affected patients with complicated medical histories to mildly affected patients who are generally in good health. Cardiovascular anomalies and hypertension were frequent. Supravalvular aortic stenosis was seen in four patients, mitral valve prolapse in three, bicuspid aortic valve in one, valvular aortic stenosis in one, and pulmonary stenosis with right ventricular hypertrophy in one. Typical facial features included stellate irides, prominent cheeks, full lips, and micrognathia. Mental retardation was seen in all patients. Verbal skills were better developed than motor skills. All patients in our study lead active lives, and most are involved in sports. Some hold supervised jobs. Eight of our patients live with their parents and two in group homes. Independent living is restricted by their mental and adaptive limitations. © 1992 Wiley-Liss, Inc.     

Interstitial deletion of chromosome 7q in a patient with Williams syndrome and infantile spasms

Interstitial deletion of 7q11.23–q21.11 was identified by cytogenetic methods in a 4-year-old boy with Williams syndrome (WS) and infantile spasms. Deletion of the elastin (ELN) gene and the DNA polymorphic markers, D7S1870, D7S2490, D7S2518, and D7S2421, were identified in the patient, but the loci for D7S653 and D7S675 were not involved. Zackowski et al. (1990) reported that 6 of 16 patients with the interstitial deletion of 7q11.2–q22 had abnormal electro encephalograms, or seizures, or both, and that infantile spasms were present in 2 of the 6 patients. WS is a well defined developmental disorder characterized by distinct facial features, gregarious personality, and congenital heart defects. Seizures are not generally associated with this syndrome. WS commonly is characterized by deletion of the loci for ELN and D7S1870, but not those for D7S2490, D7S2518, or D7S2421. This suggests that a gene responsible for infantile spasms is located in the 2.7-cM interval between loci D7S1870 and D7S675. Received: April 27, 1998 / Accepted: May 29, 1998     

Discordant phenotype of two overlapping deletions involving the PAX3 gene in chromosome 2q35

Waardenburg syndrome (WS), the most common form of Inheritedcongenltal deafness, is a pleiotropic, autosomal dominant conditionwith variable penetrance and expresslvity. WS is clinicallyand genetically heterogeneous. The basis for the phenotypicvariability observed among and between WS families is unknown.However, mutations within the paired-box gene, PAX3, have beenassociated with a subset of WS patients. In this report we usecytogenetic and molecular genetic techniques to study a patientwith WS type 3, a form of WS consisting of typical WS type 1features plus mental retardation, microcephaly, and severe skeletalanomalies. Our results show that the WS3 patient has a de novopaternally derived deletion, del (2)(q35q36), that spans thegenetic loci PAX3 and COL4A3. A molecular analysis of a chromosome2 deletional mapping panel maps the PAX3 locus to 2q35 and suggeststhe locus order: centromere-(INHA, DES)-PAX3-COL4A3-(ALPI, CHRND)-telomere.Our analyses also show that a patient with a cleft palate andlip pits, but lacking diagnostic WS features, has a deletion,del (2)(q33q35), Involving the PAX3 locus. This result suggeststhat not all PAX3 mutations are associated with a WS phenotypeand that additional regional loci may modify or regulate thePAX3 locus and/or the development of a WS phenotype.     

A case of Costello with parathyroid adenoma and hyperprolactinemia

The clinical phenotype of patients with ring chromosome 22 includes mental retardation with severe language impairment, hypotonia, and dysmorphic facial features. In recent years an increasing number of patients with microscopic as well as cryptic terminal deletion involving band 22q13 have been described and their phenotype shows clinical features overlapping with patients with ring chromosome 22. Loss of DNA in the 22q13.3 region may lead to a clinically recognizable syndrome named "22q13.3 deletion syndrome." We report a patient with a ring chromosome 22 who has hypotonia, profound mental retardation, language impairment, dysmorphic features, and behavioral disorders. To check if the critical region responsible for "22q13.3 deletion syndrome" was absent in this ring, a fluorescent in situ hybridization (FISH) analysis using a probe corresponding to the ARSA locus was performed. In our patient, only one ARSA signal could be detected, indicating that the deletion encompassed the critical 22q13.3 region. A more detailed analysis of the deletion extent then was performed using a panel of fluorescent probes located within 22q13. These experiments allowed the identification of the breakpoint between CTA-299D3 and RP5-925J7 probe, located in 22q13.32. Deletion extent could be estimated to be about 2.5 Mb, and this larger deletion may explain the severity of clinical features observed in our patient.     

Deletion mapping of the β-glucuronidase gene

GUSB, the gene for β-glucuronidase, has been localized to the proximal long arm of chromosome 7 between 7q11.2 and 7q22. Deficiency of β-glucuronidase results in mucopolysaccharidosis type VII (MPS VII, Sly syndrome). The enzymatic defect has been demonstrated in cultured skin fibroblasts, leukocytes and serum of affected patients. An 8-yr-old boy presented with manifestations similar to MPS VII (mental retardation, short stature, “coarse” facial appearance, mild skeletal involvement and recurrent lower respiratory tract infection) but other, discrepant abnormalities, e. g., bilateral iris colobomata and cleft palate. Normal activity of β-glucuronidase was found in the patient's leukocytes. Chromosome analysis disclosed an interstitial deletion of 7q with one breakpoint at the interface between bands 11.22 and 11.23 and the other breakpoint within band 21.1. DNA from this patient's leukocytes was analyzed for dosage of GUSB sequences. This locus appeared to be present at the normal diploid level. These findings suggest that GUSB is not in the portion of chromosome 7 deleted in our case, narrowing the smallest region of overlap to 7q21.1 → 7q22. We therefore assign the β-glucuronidase gene to 7q21.1 → 7q22.     

Dysmorphic phenotype and neurological impairment in 22 retinoblastoma patients with constitutional cytogenetic 13q deletion

We describe the facial dysmorphic phenotype and the neurological development of a series of 22 retinoblastoma patients sharing a cytogenetically detectable 13q deletion in a retrospective and longitudinal study. In most of the cases, high-resolution banding analysis, morphological analysis, and assessment for neurodevelopmental outcome, as well for organ malformations, were performed. Chromosomal rearrangement involving the RB1 gene included 20 13q interstitial deletions (including 16 de novo deletions) and two (de novo translocations. The most prominent dysmorphic abnormalities were anteverted ear lobes (90%), a high and broad forehead (85%), and a prominent philtrum (65%). This phenotype was associated with severe mental retardation and/or motor impairment at age 2 years in 69% of patients and correlated with the size and the location of the 13q deletion. The survival rate of our series (91%) was not different from that usually seen in retinoblastoma patients.     

Vocal cord abnormalities in Williams syndrome: a further manifestation of elastin deficiency

Williams syndrome (WS) is due to a deletion in the WS critical region at 7q11.23 which includes the elastin gene (ELN). One of the most characteristic features of this disorder is a harsh, brassy, or hoarse voice but the etiology of the vocal characteristics are unknown. We report two patients with WS who had bilateral vocal cord abnormalities, bringing to four the number of children with WS in whom such defects have been documented. We suggest that vocal cord abnormalities may be a far more common feature of WS than has been previously suspected, and that mild vocal cord dysfunction caused by abnormal vocal cord elastin may be the cause of the hoarse voice in this condition.