Cytogenetic and molecular study of the Angelman syndrome

Six patients, including two sibs, with Angelman syndrome (AS; three females and three males, aged 11 to 18 years) were studied cytogenetically. Molecular analysis was also performed. Using high-resolution banding technique, we detected a microdeletion in the proximal region of chromosome 15q in four cases. The deleted segment was heterogenous between these patients, and the common deleted region appeared to be 15q11.2. Four patients with deleted 15q were all sporadic cases, whereas in the sib cases we could not detect a visible deletion in the long arm of chromosome 15. However, there was no clinical difference between sporadic cases and sib cases. Densitometric analysis of autoradiographic bands of Southern hybridization using two DNA segments, pML34 and pTD3-21, as probes demonstrated that two patients had only one copy for each of the probes. In the remaining four patients, including the sibs, two copies of each sequence were retained. The probes used here detect a molecular deletion in most Prader-Willi syndrome patients. Thus the segment causing AS is localized adjacent to the critical segment of Prader-Willi syndrome. There seemed to be heterogeneity for the molecular deletion within AS individuals.     

Craniosynostosis in an infant with an interstitial deletion of 15q [46, XY,del(15)(q15q22.1)]

An interstitial deletion of 15q [46, XY, del(15)(q15q22.1)] was found in a malformed infant with craniosynostosis. Although the parents had normal chromosomes, the study of heteromorphic markers of chromosome 15 showed that the deleted chromosome 15 was of paternal origin. The 2 previously reported cases with an interstitial deletion of the middle portion of 15q were not complicated with craniosynostosis, and their deleted region did not include 15q15 band. The deletion of chromosome band 15q15 might be responsible for craniosynostosis.     

Maternal complex chromosome rearrangement ascertained through a del (13)(q12.1q14.1) detected in her mildly affected daughter

A maternal complex chromosome rearrangement (CCR) involving chromosomes 2, 13, and 20 was ascertained in a normal female through the diagnosis of a deletion of 13q in her daughter. The child has mild clinical features and developmental delay consistent with proximal deletions of 13q that do not extend into band q32 and a del(13)(q12q14.1) that does not involve the retinoblastoma locus by FISH. Maternal studies by GTG banding and FISH showed a complex karyotype with bands 13q12.3→13q12.1::20p13 translocated to 2p13 and bands 2pter→2p13::13q12.3→13q14.1 translocated into band 20p13. This would be the first report of an interstitial deletion of 13q inherited from a parental complex chromosome rearrangement. © 2001 Wiley‐Liss, Inc.     

15q duplication associated with autism in a multiplex family with a familial cryptic translocation t(14;15)(q11.2;q13.3) detected using array-CGH

Autism spectrum disorders (ASDs) are a group of neurodevelopmental disorders with a strong genetic aetiology. In approximately 1% of cases, duplication of the 15q11-13 region has been reported. We report the clinical, array-comparative genomic hybridization (CGH) and cytogenetic evaluation of two individuals from a multiplex family demonstrating autism due to a maternally inherited gain of 15q11-13. Our findings indicate that unlike most 15q11-13 gains, which are caused by interstitial duplication of this region or supernumerary marker chromosomes deriving from proximal 15q, the 15q gain in this family is the result of abnormal segregation of a cryptic familial translocation with breakpoints at 14q11.2 and 15q13.3. The affected members of this family were found to have a normal karyotype at >550 band resolution. This translocation was identified using the 1-Mb resolution whole genome array (Spectral Genomics). The affected individuals have a gain of seven clones from proximal 15q, a loss of two clones from proximal 14q and a gain of two clones from 6q. Fluorescent in situ hybridization (FISH) analysis with clones from chromosomes 14 and 15, combined with DAPI reverse banding, showed an abnormal karyotype with one normal chromosome 15 and the der(15) t(14;15)(q11.2.;q13.3), resulting in the gain of proximal 15q and the loss of proximal 14q in affected individuals. The duplication of two clones from 6q in the affected subjects was also found in unaffected members of the family. Our findings suggest that the gain of 15q in autism may in some cases be due to cryptic translocations with breakpoints in the pericentromic regions of chromosome 15 and a different acrocentric chromosome. Variation in the size of pericentromic regions of any acrocentric chromosome may justify karyotype and FISH studies of autistic probands and their parents using probes from the 15q proximal region to determine recurrence risk for autism in some families.     

16q21 is critical for 16q deletion syndrome

A 1-year-old girl with an interstitial deletion of the long arm of chromosome 16 is reported. She was characterized by a distinct craniofacial dysmorphism, meningoencephalocele, mild hydrocephalus, short neck, broad great toes and abnormally positioned toes. High resolution GTG and RBG banding analyses revealed a karyotype: 46,XX,del(16) (q13q22) de novo. An analysis of the smallest region of overlap revealed that the critical band region for 16q deletion syndrome is 16q21.     

Subtle overlapping deletions in the terminal region of chromosome 6q24.2-q26: Three cases studied using FISH

Interstitial deletions in the terminal region of chromosome 6 are rare. We describe three new cases with subtle interstitial deletions in the q24-q26 region of the long arm of chromosome 6. The karyotypes were analyzed at a 550 band level. Patient1 is a 9-month-old boy with an interstitial deletion, del(6)(q24.2q25.1), developmental delay, low birth weight, hypotonia, heart murmur, respiratory distress, craniofacial and genital anomalies. This is the first report of a case with deletion del(6)(q24.2q25.1). Patient 2 is a 17-year-old young man with an interstitial deletion del(6)(q25.1q25.3), developmental delay, short stature, mental retardation, autism, head, face, chest, hand and feet anomalies and a history of seizures. For the first time autism was described as a manifestation in 6q deletions. Patient 3 is baby boy with a de novo interstitial deletion, del(6)(q25.1q26), anomalies of the brain, genital organs, limbs and feet. This is the first report of a case with deletion, del(6)(q25.1q26). In all three patients, fluorescence in situ hybridization (FISH) using chromosome 6 painting probe ruled out an insertion. The ESR (6q25.1) and TBP (6q27) probes were used to confirm the breakpoints. Since TBP signal is present in all cases, it confirmed an interstitial deletion proximal to this probe. Patient 1 has a deletion of the ESR locus; Patient 2 and 3 have signals for the ESR locus on both chromosomes 6. Therefore the deletion in Patients 2 and 3 are between ESR and TBP loci distal to that of Patient 1. FISH validated the deletion breakpoints assessed by conventional cytogenetics. Am. J. Med. Genet. 87:17–22, 1999. © 1999 Wiley-Liss, Inc.     

15q24.1 BP4-BP1 microdeletion unmasking paternally inherited functional polymorphisms combined with distal 15q24.2q24.3 duplication in a patient with epilepsy,psychomotor delay,overweight, ventricular arrhythmia

15q24 microdeletion and microduplication syndromes are genetic disorders caused by non-allelic homologous recombination between low-copy repeats (LCRs) in the 15q24 chromosome region. Individuals with 15q24 microdeletion and microduplication syndromes share a common 1.2 Mb critical interval, spanning from LCR15q24B to LCR15q24C. Patients with 15q24 microdeletion syndrome exhibit distinct dysmorphic features, microcephaly, variable developmental delay, multiples congenital anomalies while individuals with reciprocal 15q24 microduplication syndrome show mild developmental delay, facial dysmorphism associated with skeletal and genital abnormalities. We report the first case of a 10 year-old girl presenting mild developmental delay, psychomotor retardation, epilepsy, ventricular arrhythmia, overweight and idiopathic central precocious puberty. 180K array-CGH analysis identified a 1.38 Mb heterozygous interstitial 15q24.1 BP4-BP1 microdeletion including HCN4 combined with a concomitant 2.6 Mb heterozygous distal 15q24.2q24.3 microduplication. FISH analysis showed that both deletion and duplication occurred de novo in the proband. Of note, both copy number imbalances did not involve the 1.2 Mb minimal deletion/duplication critical interval of the 15q24.1q24.2 chromosome region (74.3–75.5 Mb). Sequencing of candidate genes for epilepsy and obesity showed that the proband was hemizygous for paternal A-at risk allele of BBS4 rs7178130 and NPTN rs7171755 predisposing to obesity, epilepsy and intellectual deficits. Our study highlights the complex interaction of functional polymorphisms and/or genetic variants leading to variable clinical manifestations in patients with submicroscopic chromosomal aberrations.     

Unbalanced translocation 46,xy,−15,+der(22)t(15;22)(q13;q11)pat: Case report and review of the literature

We present a boy with a rare unbalanced translocation 46,XY,?15,+der(22),t(15;22)(q13;q11) pat. Previous reports of similar chromosome findings mention only the Prader-Willi phenotype. At birth, his manifestations included severe hypotonia and lethargy, (typical of deletion of 15pter→q13); hypertelorism, down-slanting small palpebral fissures, preauricular tags, long philtrum (typical of duplication of 22pter→q11); severe laryngotracheo-malacia, and proximal implantation of the thumb. In a review of the literature on chromosome abnormalities involving duplication of 22q11 the associated clinical phenotype consists of mild mental retardation, microcephaly, hypotonia, hypertelorism, down-slanting palpebral fissures, a long philtrum, cleft or highly arched palate, and ear abnormalities. Preauricular pits or tags are common. Cardiovascular defects, renal and genital problems and dislocated hips are frequently present. Anal atresia and colobomata are mainly seen in cat-eye syndrome, the phenotype associated with idic 22q11. Our findings indicate that patients with unbalanced t(15;22) can have manifestations of the dup 22q11, in addition to the previously reported Prader-Willi phenotype, even if the duplicated segment is small. © 1992 Wiley-Liss, Inc.     

Cytogenetic and molecular cytogenetic studies of a case of interstitial deletion of proximal 15q

A 4-month-old child with multiple anomalies was determined to have an interstitial deletion of chromosome 15, i.e., del(15) (q12q14). The deletion appears not to be a typical deletion of 15q12 such as seen in Angelman and Prader-Willi syndromes, but appears to be more distal, involving either loss of all of 15q12 and part of 15q14, or part of 15q12 and most of 15q14. In either case, 15q13 is missing. Fluorescent in situ hybridization with probes for 15 centromere (D15Z), pericentromeric satellite sequences (D15Z1), and chromosome 15 painting probes shows the deleted chromosome to involve only 15 and no other acrocentric chromosome. Hybridization with probes for the AS and PWS loci (D15S11 and GABAB3, Oncor) show both sites to be intact in the deleted 15. The case is compared with two other reports with overlapping interstitial deletions of proximal 15q, neither of which shows typical features of Angelman or Prader-Willi syndromes.     

Narrowing the deleted region associated with the 15q21 syndrome

Interstitial deletions of chromosome 15q, not involving the PWS/AS region, are uncommon and poorly characterized. Few cases defined at the cytogenetic level have been reported with 15q21 deletions and characteristic facial dysmorphisms are present in all them. We report on the molecular characterization by array-CGH of a new patient with a 15q21 deletion and on the redefinition of a second patient previously studied with multicolor banding. The two deletions resulted to be similar and involve about 12 and 8 Mb, respectively. Our study might promote to delineate a better genotype-phenotype correlation associated with 15q21 deletions.     

Atypical phenotype associated with deletion (15) (pter → q11::q13 → qter)

We report on a 10-year-old boy with an interstitial deletion within the region of bands 15q11 → q13. Authors have associated the manifestation of the Prader-Willi syndrome (PWS) with variable deletions involving the bands q11 → q13. Our patient had atypical manifestations not usually associated with PWS, ie, normal stature, proportionally sized hands and feet, normal genitalia, and was nonambulatory and severely mentally retarded. This case emphasized the clinical diversity seen in proximal 15q deletions in the region considered to be correlated with the PWS.     

Proximal and distal 15q25.2 microdeletions–genotype–phenotype delineation of two neurodevelopmental susceptibility loci

Distal 15q25.2 microdeletions have recently been reported as a copy number variation (CNV) locus for neurodevelopmental and neuropsychiatric disorders with variable outcome. In addition, more proximal microdeletions of 15q25.2 have been described as a susceptibility locus for cognitive deficits, congenital diaphragmatic hernia (CDH), and Diamond–Blackfan anaemia (DBA). We describe two patients with 15q25.2 deletion, one with the more distal deletion and the other with a deletion overlapping both the distal and proximal 15q25.2 deletions and compare them to the 18 so far reported patients with 15q25.2 deletions. We provide a characterization of the 15q25.2 microdeletions and contribute to the genotype–phenotype delineation for these two novel microdeletion syndromes. © 2012 Wiley Periodicals, Inc.     

三例Prader－Willi综合征的微细胞遗传学研究

应用高分辨染色体显带技术，对门诊筛选的３例Ｐｒａｄｅｒ－Ｗｉｌｌｉ综合征进行了微细胞遗传学研究，发现其中２例１５号染色体长臂发生了微小的中间缺失，另１例核型正常。从而进一步证明高分辨染色体显带技术在临床诊断及优生工作中的重要性。     

Syndromes associated with deletion of the long arm of chromosome 18[del(18q)]

We studied eight persons whose karyotypes demonstrated deletion of a portion of the long arm of chromosome 18. Seven of these persons who showed the typical del(18q) syndrome had a common deletion in band 18q21, most likely band q21.3, and in at least two persons the deletion was interstitial. Another mentally retarded child, dissimilar in appearance, had a more proximal deletion within band 18q12. Two different clinical syndromes resulted from deletions of these different segments of the long arm of chromosome 18.     

Interstitial duplications of chromosome region 15q11q13: Clinical and molecular characterization

Duplications of chromosome region 15q11q13 often occur as a supernumerary chromosome 15. Less frequently they occur as interstitial duplications [dup(15)]. We describe the clinical and molecular characteristics of three patients with de novo dup(15). The patients, two males and one female (ages 3–21 years), had nonspecific findings that included autistic behavior, hypotonia, and variable degrees of mental retardation. The extent, orientation, and parental origin of the duplications were assessed by fluorescent in situ hybridization, microsatellite analyses, and methylation status at D15S63. Two patients had large direct duplications of 15q11q13 [dir dup(15)(q11q13)] that extended through the entire Angelman syndrome/Prader-Willi syndrome (AS/PWS) chromosomal region. Their proximal and distal breaks, at D15S541 or D15S9 and between D15S12 and D15S24, respectively, were comparable to those found in the common AS/PWS deletions. This suggests that duplications and deletions may be the reciprocal product of an unequal recombination event. These two duplications were maternally derived, but the origin of the chromatids involved in the unequal crossing over in meiosis differs. In one patient, the duplication originated from two different maternal chromosomes, while in the other patient it arose from the same maternal chromosome. The third patient had a much smaller duplication that involved only D15S11 and parental origin could not be determined. There was no obvious correlation between phenotype and extent of the duplication in these patients. Am. J. Med. Genet. 79:82–89, 1998. © 1998 Wiley-Liss, Inc.     

X;14 translocation: An exception to the critical region hypothesis on the human X-chromosome

We report on a family in which an X;14 translocation has been identified. A phenotypically normal female, carrier of an apparently balanced X-autosome translocation t(X;14) (q22;q24.3) in all her cells and a small interstitial deletion of band 15q 112 in some of her cells had 2 offspring. She represents a fifth case of balanced X-autosome translocation with the break point inside the postulated critical region of Xq(q13 q26) associated with fertility. The break point in this case is located in Xq22, the same band as in four previously published exceptional cases. In most of her cells, the normal X was inactivated. Her daughter, the proposita, has an unbalanced karyotype 46,X,der(X), t(X;14)(q22;q24.3)mat, del(15)(q11.1q11.3)mat. She is mildly retarded and has some Prader-Willi syndrome manifestations. She has two normal 14 chromosomes, der(X), and deletion 15q11.2. Her clinical abnormalities probably could be attributed to the deletions 15q and Xq rather than 14q duplication. In most of cells, der(X) was inactivated. We assume that spreading of inactivation was extended to the 14q segment on the derivative X. Late replication and gene dose studies support this view. Another daughter, who inherited the balanced X;14 translocation and not deletion 15 chromosome, is phenotypically normal.     

Deletion of chromosome 15 (q11 – 13) in a Prader-Labhart-Willi syndrome clinic population

Deletion of the long arm of chromosome 15 has recently been reported in a number of patients with the Prader-Labhart-Willi syndrome who were studied with prometaphase banding. We performed cytogenetic analysis on 12 patients with this disorder in whom the clinical diagnosis was certain. A specific cytogenetic anomaly, del(15q11 – 13) was found in all of the 12 patients. In nine of the 12, the deletion was noted in all cells examined; in two, there was mosaicism, some cells having the deletion and others being normal; one patient had a 7;15 translocation. No clinical differences were evident between individuals with mosaicism for the translocation and those with the typical deletion in all cells examined. The finding that all of our patients with Prader-Labhart-Willi syndrome have a cytogenetic anomaly, with some patients having mosaicism, distinguishes the results of this study from those of previous reports. Prometaphase chromosome analysis is recommended in all individuals clinically suspected of having Prader-Labhart-Willi syndrome and should be considered in hypotonic infants without a specific diagnosis.     

A de novo interstitial deletion of chromosome 15 band q25 as revealed by FISH-technique

We report a new chromosomal finding in a 20-month-old girl. The minor clinical features included: moderate mental retardation, microcephaly, mild hypotonia and hypertelorism. Initially, what appeared to be a terminal deletion of the long arm of one chromosome 15 [15q26 → qter] was determined to be an interstitial deletion involving band 15q25 as revealed by FISH-technique, showing the presence of intact telomeric hybridization signals. The cytogenetic diagnosis was thus modified to 46,XX, del (15) (pter → q24::q26 → qter). Nevertheless, the function of the enzyme telomerase should not be ignored, as healing could occur following such terminal deletions. Consequently, it will remain a difficult task to distinguish terminal deletions from those that are interstitial.     

Deletions of different segments of the long arm of chromosome 4

We report the clinical and chromosomal findings in 8 patients with deletions of the long arm of chromosome 4. Four of these patients appear to have terminal deletions beginning in band 4q31, and therefore, lack the digital 1/3 of the long arm of chromosome 4. We confirm that deletion of 4q31→qter causes a recognizable syndrome, and we further define the phenotype of that syndrome. A 5th patient has a shorter terminal deletion, ie, 4q33→qter. This deletion causes a milder phenotypic expression than that seen in the severe 4q terminal-deletion syndrome. The remaining 3 patients have interstitial deletions of the long arm of the 4th chromosome, including segments 4q21.1→q25, 4q21.3→q26, and 4q27→q31.3. The phenotypic expression noted in these patients is variable and differs from the 4q terminal-deletion syndrome.     

High-resolution cytogenetic studies in patients with Prader-Willi syndrome

We investigated 24 patients with Prader-Willi syndrome by the high-resolution banding technique. Their history and clinical findings were also examined in some detail. Twelve had interstitial deletion of 15q; del(15) (q11.2q13) in 11 cases and del(15) (q11.2q12) in one case. Six revealed normal karyotypes at about 500-850 bands per haploid-set level. In an additional six cases, no deletion was detected. However, we took the results as tentative, as the observed karyotypes were at the 400-bands level. During the course of this study, it was realized that a small deletion in the proximal 15q could be easily overlooked when a mitotic spread around 400-bands or less per haploid-set level was used. There was no distinct difference in the clinical features of patients with interstitial deletion and those with a normal karyotype. Two cases in the latter group lacked some of the typical features of the former group, e.g. poor fetal vigor, neonatal feeding difficulty, hypotonia, and delayed motor development.