Patient with terminal duplication 3q and terminal deletion 5q: comparison with the 3q duplication syndrome and distal 5q deletion syndrome

Partial duplication of chromosome 3q is a well-described condition of multiple congenital anomalies and developmental delay that resembles the Brachmann-de Lange syndrome. Similarly, an emerging phenotype of a distal 5q deletion syndrome has recently been described. The combination of both chromosome abnormalities has not been previously described. We report on a child with both a de novo duplication of distal 3q (q27 --> qter) and terminal deletion of 5q (q35.2 --> qter). The patient had facial anomalies, hypoplastic toenails, lymphedema of the dorsum of the feet, type I Chiari malformation, a seizure disorder, and moderate developmental delays. The phenotype is compared and contrasted to the few reports of patients with similar terminal 3q duplications and 5q deletions. Our patient did not have the characteristic phenotype of the 3q duplication syndrome, suggesting that the chromosome region responsible for this phenotype is more proximal than the terminal 3q27 region. In addition, comparison with three other reported cases of terminal 5q35 deletions suggests a possible association of terminal 5q deletions with central nervous system (CNS) structural abnormalities.     

Inverted duplication with terminal deletion of 5p and no cat-like cry

We report on a 6-year-old boy referred for cytogenetics study. A few non-specific features were observed in the newborn: hypotonia, failure to thrive, seizures, pre-auricular skin tags. Cat-like cry was not identified. No remarkable facial dysmorphism, gastrointestinal, respiratory or cardiac abnormalities were identified. At age 4 years, speech and motor skill delays were apparent. Karyotyping and FISH analysis revealed a de novo rearranged chromosome 5p, with subtelomeric deletion of 5p and a duplication of the cri-du-chat critical region. Array CGH using sub-megabase resolution tiling-set (SMRT) array followed by FISH analysis with labeled BACs showed a deletion of 5pter to 5p15.31 (0-6.9 Mb) and an inverted duplication of the greater part of 5p15.31 to the distal end of 5p14.3 (6.9-19.9 Mb). Although very rare, inverted duplications with terminal deletion (inv dup del) have been reported at different chromosomal ends. Our finding adds a second patient of inv dup del 5p to this growing list, and the potential causative mechanisms for this rearrangement are discussed. Review of the mapping information of cri-du-chat patients and the comparison with a previously reported patient suggested that the critical region for cat-like cry is located within a 0.6 Mb region.     

Clinical phenotype associated with terminal 2q37 deletion

Three children with deletions of the terminal portion of the long arm of chomosome 2 [del (2) (q37)] are described and their clinical findings compared to published cases of 2q terminal deletions. Common clinical findings include development delay, macrocephaly, frontal bossing, depressed nasal bridge and cardiac anomaly. Hypotonia and repetitive behavior are also seen during different times of development. The facial characteristics of children with 2q terminal deletions are not uniform, but development delay is a constant finding. Chromosomal analysis of such children using high resolution banding may uncover the diagnosis of a small chromosomal deletion.     

Craniosynostosis associated with partial duplication of 15q and deletion of 2q

We report on an infant with multiple congenital anomalies including complex craniosynostosis associated with an unbalanced karyotype, 46,XY, ? 2, + der(2),t(2;15)(q37;q26)pat. The previous report of a child with cloverleaf skull and partial duplication of 15q25→qter and the Man-on-Mouse Homology map suggests that a critical segment for synostosis of sutures may be in this region. © 1992 Wiley-Liss, Inc.     

Interstitial 15q deletion without a classic Prader-Willi phenotype

We report on a newborn boy with pronounced hypotonia, cryptorchidism, minor facial anomalies, congenital heart defect, neurologic anomaly, deafness, renal anomaly, and bifid uvula. The patient has a de novo proximal interstitial deletion of chromosome 15 reaching to band q14, larger than that usually seen in Prader-Willi and Angelman syndromes.     

Craniosynostosis associated with partial duplication of 15q and deletion of 2q.

We report on an infant with multiple congenital anomalies including complex craniosynostosis associated with an unbalanced karyotype, 46,XY,-2,+der(2),t(2;15)(q37;q26)pat. The previous report of a child with cloverleaf skull and partial duplication of 15q25----qter and the Man-on-Mouse Homology map suggests that a critical segment for synostosis of sutures may be in this region.     

De novo direct duplication of 15q15-->q24 in a newborn boy with mild manifestations

Duplication of distal 15q results in a recognizable clinical phenotype. We report here on a 25-day-old boy with a de novo interstitial duplication of chromosome region 15q15-q24. The manifestations in this patient are milder than those of previously described patients and include minor facial anomalies, velopharyngeal insufficiency, branchial cleft cyst, and hydronephrosis. Fluorescence in situ hybridization (FISH) using a chromosome 15 painting probe confirmed that the extra material is of chromosome 15 origin. Further analysis with the SNRPN probe demonstrated that the duplication is telomeric to the Prader-Willi/Angelman syndrome critical region. This case delineates a broader spectrum for patients with duplication 15q syndrome.     

Case of 15q26-qter deletion associated with a Prader-Willi phenotype

Prader-Willi syndrome (PWS) is one of the common neurogenetic disorders associated with intellectual disability. PWS involves a complex inheritance pattern and is caused by an absence of gene expression on the paternally inherited 15q11.2-q13 region, either due to deletion, maternal uniparental disomy or imprinting defect. The syndrome is characterized principally by severe neonatal hypotonia, a weak suck in infancy that is later followed by hyperphagia and obesity, developmental delay, intellectual disability and short stature. In the case of the chromosome 15q26-qter deletion syndrome or Drayer's syndrome, very few reports have been published. Its characteristics include intrauterine growth restriction, postnatal growth failure, varying degrees of intellectual disability, developmental delay, typical facial appearance and diaphragmatic hernia. The present paper describes a female patient in whom clinical findings were suggestive of PWS and deletion in the 15q26-qter region. Both karyotyping and methylation-specific polymerase chain reaction were shown to be normal. Nevertheless, fluorescence in situ hybridization showed a 15qter deletion that was later mapped by single nucleotide polymorphism (SNP)-array. The deleted genomic region involves the insulin-like growth factor-1 receptor (IGF1R) gene, which is related to short stature, developmental delay and intellectual disability. This case had various clinical characteristics in common with the cases of 15q26-qter deletionand characteristics compatible with PWS.     

4q35 deletion and 10p15 duplication associated with immunodeficiency

We report a familial cryptic reciprocal translocation between 4q35 and 10p15 leading to deletion of the terminal long arm of chromosome 4 and duplication of the terminal short arm of chromosome 10 in two family members who both have immunological disturbances and a similar facial appearance. The precise location and extent of the deletion and duplication was determined by fluorescence in situ hybridization (FISH). Furthermore, we investigated the deletion breakpoint of a previously reported patient with 4q34.3-qter deletion [Van Buggenhout et al. (2004); Am J Med Genet Part A 131A:186-189].     

De novo direct duplication of 15q15→q24 in a newborn boy with mild manifestations

Duplication of distal 15q results in a recognizable clinical phenotype. We report here on a 25-day-old boy with a de novo interstitial duplication of chromosome region 15q15-q24. The manifestations in this patient are milder than those of previously described patients and include minor facial anomalies, velopharyngeal insufficiency, branchial cleft cyst, and hydronephrosis. Fluorescence in situ hybridization (FISH) using a chromosome 15 painting probe confirmed that the extra material is of chromosome 15 origin. Further analysis with the SNRPN probe demonstrated that the duplication is telomeric to the Prader-Willi/Angelman syndrome critical region. This case delineates a broader spectrum for patients with duplication 15q syndrome. Am. J. Med. Genet. 87:395–398, 1999. © 1999 Wiley-Liss, Inc.     

A malformed girl with duplication of chromosome 9q.

A case of a 1 year old girl with a duplication of the long arm of chromosome 9 is described: 46,XX,dir dup(9)(q12----q32). The clinical features of the child are strikingly similar to those of the two cases reported by Turleau et al and Faed et al. The similarity of the abnormalities may help in recognising this syndrome by its characteristic dysmorphic features.     

A de novo 15q13.2q13.3 deletion in a boy with an Angelman syndrome like phenotype

We report on a 11-year-old boy investigated for a clinical suspicion of Angelman syndrome (AS) (OMIM 105830) who was found to carry a de novo interstitial deletion of chromosome 15q13.2q13.3. The deletion overlaps the critical region for the newly recognized recurrent 15q13.3 deletion syndrome. This is the first report of a patient with 15q13.3 deletion syndrome with clinical features similar to that of AS, thus broadening the phenotypic spectrum associated with the 15q13.3 microdeletion syndrome.     

Terminal 4q deletion and 8q duplication in a patient with CHARGE-like features

The CHARGE syndrome is a multiple congenital malformation syndrome that usually results from deletion or heterozygous loss of function mutations of the chromodomain helicase DNA-binding protein 7 (CHD7) gene at 8q12.1. Besides CHD7-related cases, some patients with CHARGE-like phenotype have been reported with chromosomal imbalances. We describe a patient with a pattern of malformations reminiscent of CHARGE syndrome: choanal atresia, facial dysmorphism (micrognathia, hypertelorism, epicanthic folds, and depressed, broad nasal bridge), cardiovascular malformations, cryptorchidism, and developmental delay. He had duplication 8q and deletion 4q derived from paternal translocation t(4;8)(q34;q22.1). CHD7 mutation or deletion was excluded. The present report to the best of our knowledge is the only one describing an unbalanced translocation t(4;8) and CHARGE-like phenotype.     

Partial duplication of 3q and distal deletion of 11q in a stillbirth with an omphalocele containing the liver, short limbs, and intrauterine growth retardation.

We describe a female stillbirth with duplication of 3q21-->qter and deletion of 11q23-->qter resulting from an unbalanced segregation of a maternal t(3;11) reciprocal translocation. The proband had some of the clinical features consistent with those seen in patients with dup(3q) syndrome or distal del(11q) syndrome. Prenatal sonographic examination showed short limbs, intrauterine growth retardation, and an omphalocele containing the liver.     

Comparison of phenotype between patients with Prader-Willi syndrome due to deletion 15q and uniparental disomy 15

Prader-Willi syndrome (PWS) is a complex multiple anomaly syndrome that has been shown to result from deficient expression of paternal chromosome 15(q11-q13). In most cases, it is caused either by deletion of this region in the paternally inherited chromosome 15 or by maternal uniparental disomy (UPD) of chromosome 15. In order to determine whether there are phenotypic differences between patients whose PWS is caused by these two different mechanisms, 54 affected individuals (37 with deletion, 17 with UPD) were personally examined and studied using molecular techniques. The previously recognized increased maternal age in patients with UPD and increased frequency of hypopigmentation in those with deletion were confirmed. Although the frequency and severity of most other manifestations of PWS did not differ significantly between the two groups, those with UPD were less likely to have a “typical” facial appearance. In addition, this group was less likely to show some of the minor manifestations such as skin picking, skill with jigsaw puzzles, and high pain threshold. Females and those with UPD were also older, on average. Possible mechanisms by which these differences could occur and the implications of these differences for diagnosis are described. Am. J. Med. Genet. 68:433–440, 1997. © 1997 Wiley-Liss, Inc.     

Proportional growth failure and oculocutaneous albinism in a girl with a 6.87 Mb deletion of region 15q26.2-->qter

We report on an 8¹/₂-year-old girl with severe pre- and postnatal growth retardation, congenital heart malformation, facial asymmetry, oculocutaneous albinism without misrouting and subluxation of the radial heads. Her intelligence was in the low normal range. By GTG-banding a deletion of band 15q26 was found. Array-CGH, using a 3783 BAC array, revealed a segmental monosomy of the 15(q26.2→qter) region, which was narrowed down to a 6.87 Mb deletion by using the Illumina Infinium 317 K SNP array system, and subsequently confirmed by fluorescence in situ hybridisation (FISH) analysis. The deletion appeared to have arisen de novo. The IGF1R (insulin-like growth factor 1 receptor) and the NR2F2 genes were situated within, but the OCA2 (oculocutaneous albinism II) gene (formerly called the P gene) was located outside the deleted region. Clinical findings in our patient were compared with previously reported cases carrying terminal deletions of 15q26.2. This allowed us to expand the clinical phenotype of terminal 15q26.2 deletions and to indicate candidate genes for several phenotypic features.