A phenotype map for 14q32.3 terminal deletions

Detailed molecular-cytogenetic studies combined with thorough clinical characterization are needed to establish genotype-phenotype correlations for specific chromosome deletion syndromes. Although many patients with subtelomeric deletions have been reported, the phenotype maps for many of the corresponding syndromes, including the terminal deletion 14q syndrome, are only slowly emerging. Here, we report on five patients with terminal partial monosomy of 14q32.3 and characteristic features of terminal deletion 14q syndrome. Four of the patients carry de novo terminal deletions of 14q, three of which have not yet been reported. One patient carries an unbalanced translocation der(14)t(9;14)(q34.3;q32.3). Minimum deletion sizes as determined by molecular karyotyping and FISH are 5.82, 5.56, 4.17, 3.54, and 3.29?Mb, respectively. Based on our findings and a comprehensive review of the literature, we refine the phenotype map for typical clinical findings of the terminal deletion 14q syndrome (i.e., intellectual disability/developmental delay, muscular hypotonia, postnatal growth retardation, microcephaly, congenital heart defects, genitourinary malformations, ocular coloboma, and several dysmorphic signs). Combining this phenotype map with benign copy-number variation data available from the Database of Genomic Variants, we propose a small region critical for certain features of the terminal deletion 14q syndrome which contains only seven RefSeq genes.     

A child with an inherited 0.31 Mb microdeletion of chromosome 14q32.33: further delineation of a critical region for the 14q32 deletion syndrome

Chromosome 14q32.3 deletions are uncommon, with most described patients harboring a ring chromosome 14. Only 15 deletions have been described not associated with ring formation or other complex chromosomal rearrangements. Here, we describe a child with the smallest deletion of chromosome 14q32.3 reported in the literature. This child's deletion encompasses at most 0.305?Mb and six genes including NUDT14, BRF1, BTBD6, PACS2, MTA1, and TEX22. He has similar clinical findings, including mild facial dysmorphisms and intellectual disability, as other individuals with much larger deletions of the terminus of the long arm of chromosome 14. This suggests that the genes deleted in our patient contribute to the 14q32 deletion syndrome.     

The morphogenesis of down syndrome: Progress in clinical and biological research. Vol. 373. Charles J. Epstein (Ed.). Wiley-Liss,New York, 1991. pp. xvi + 337. Indexed. $105.00

We describe a patient who had craniofacial and genitourinary abnormalities, swallowing difficulties, esophageal dysfunction, hypotonia and moderate developmental delay, and who also had a terminal deletion of chromosome 13 (q32.3qter). This MCA pattern strongly suggests the Opitz GBBB syndrome. The deletion of chromosome 13 was interpreted as terminal with a breakpoint at 13q32.3. Coagulation factors VII and X located in 13q34, were markedly reduced in the propositus. Although there is some clinical overlap between patients with terminal deletion of 13q and those with the Opitz GBBB syndrome, our patient manifests a whole pattern of abnormalities characteristic of the latter disorder. The concurrence of the Opitz GBBB syndrome and the chromosome abnormality in our patient could be due to chance or, be becuase a gene for the Opitz GBBB syndrome is located at the tip of 13q. © 1995 Wiley-Liss, Inc.     

Distal monosomy 14 not associated with ring formation.

A 12-year-old boy with congenital heart disease, short stature, mildly dysmorphic facies, and mild intellectual impairment was found to have a de novo terminal deletion (14)(q32.3). Although his phenotype resembles that of six reported patients with a similar breakpoint, his CNS involvement is milder. He appears to be the first reported case of a terminal deletion of chromosome 14 not associated with ring 14 formation. Advanced parental ages and maternal origin of the chromosome with the deletion are noted.     

A child with multiple congenital anomalies and karyotype 46,XY,del(14)(q31q32.3): further delineation of chromosome 14 interstitial deletion syndrome

We report on an infant with a multiple congenital anomaly syndrome and severe developmental delay in association with a previously undescribed de novo interstitial deletion of chromosome 14 [karyotype: 46,XY,del(14) (q31q32.3)]. Comparison of the presented patient with previously reported cases of interstitial and terminal chromosome 14q deletions provides a group of patients monosomic for various overlapping portions of the distal half of chromosome 14q and suggests a limited similarity in phenotype among patients with common deleted 14q segments. All patients with distal 14q deletions were developmentally delayed, most were microcephalic and failed to thrive. Most of the patient's anomalies were limited to the face and head. Few major internal congenital anomalies were observed. These comparisons serve to further clarify possible associations of subchromosomal aberrations with specific phenotypes.     

Terminal deletion (14)(q32.3): a new case.

A mildly dysmorphic, 2 year old girl with mental retardation was found to have a small de novo terminal deletion of the long arm of chromosome 14, del(14)(q32.3). She was found to have features in common with two previous terminal deletion cases and particularly with the well documented ring 14 syndrome, although seizures, a characteristic feature of ring 14, were notably absent.     

Terminal 14q32.33 deletion: genotype-phenotype correlation

We report on a female infant presenting with psychomotor retardation and facial dysmorphism. Cytogenetic studies showed an abnormal chromosome 14 with ectopic NOR sequences at the extremity of the long arm with a terminal 14q32.33 deletion. Review of the eight cases with pure terminal 14q32.3 deletions described to date documented that our observation is the smallest terminal 14q deletion ever reported. Thus, genotype-phenotype correlation allows us to delimit the critical region for mental retardation, hypotonia, epi-telecanthus, short bulbous nose, long philtrum, thin upper lip, and small mouth observed in 14 qter deletions to the subtelomeric 1.6 Mb of chromosome 14.     

FISH-mapping of telomeric 14q32 deletions: search for the cause of seizures

Ring chromosome 14 is a rare cytogenetic disorder. Individuals with r(14) generally have developmental delay and seizures. Other features include hypotonia, microcephaly, mild facial dysmorphism, and retinal pigmentation. Most of these features are also found in patients with linear terminal deletions of chromosome 14, except for seizures and retinal abnormalities. The objective of the study was to determine if deletion of a specific chromosome region is a possible explanation for the occurrence of seizures in patients with ring chromosome 14. Patients diagnosed either with r(14) (six patients) or a deletion of distal 14q (three patients) were analyzed by FISH (fluorescence in situ hybridization) with BAC probes. We observed differences in the size of deletions in the studied group. In two r(14) patients, we did not detect any deletion; the four other patients had deletions of various sizes, ranging from 0.8 Mb to 5 Mb. Two linear deletions were 3.2 Mb and 5.3 Mb in length, respectively; the third case had an interstitial deletion that did not overlap with the others. The deleted regions in ring chromosomes showed overlap with those in the two linear terminal deletions. We conclude that there is unlikely to be a specific deleted locus in 14q32.3 that predisposes r(14) patients to seizures or retinal pigmentation. The cause is probably related to the formation of the ring itself and the effect this may have on local chromatin structure.     

Chromosome 4q deletion syndrome: narrowing the cardiovascular critical region to 4q32.2-q34.3

The 4q deletion syndrome is a rare chromosome deletion syndrome with a wide range of clinical phenotypes. There is limited clinical phenotype and molecular correlation for congenital heart defects (CHDs) reported so far for this region primarily because many cases are large deletions, often terminal, and because high-resolution array has not been reported in the evaluation of this group of patients. CHDs are reported in about 60% of patients with 4q deletion syndrome, occurring in the presence or absence of dHAND deletion, implying the existence of additional genes in 4q whose dosage influences cardiac development. We report an 8-month-old patient with a large mid-muscular to outlet ventricular septal defect (VSD), moderate-sized secundum-type atrial septal defect (ASD), thickened, dysplastic pulmonary valve with mild stenosis and moderate pulmonic regurgitation, and patent ductus arteriosus (PDA). Illumina CytoSNP array analysis disclosed a de novo, heterozygous, interstitial deletion of 11.6?Mb of genomic material from the long arm of chromosome 4, at 4q32.3-q34.3 (Chr4:167236114-178816031; hg18). The deleted region affects 37 RefSeq genes (hg18), including two provisional microRNA stemloops. Three genes in this region, namely TLL1 (Tolloid-like-1), HPGD (15-hydroxyprostaglandin dehydrogenase), and HAND2 (Heart and neural crest derivatives-expressed protein 2), are known to be involved in cardiac morphogenesis. This report narrows the critical region responsible for CHDs seen in 4q deletion syndrome.     

A terminal deletion (14)(q31.1) in a child with microcephaly, narrow palate, gingival hypertrophy, protuberant ears, and mild mental retardation.

A female child with a terminal deletion on the long arm of chromosome 14, 46,XX,del(14)(q31.1), presented with microcephaly, narrow palate, gingival hypertrophy, protuberant ears, and a small haemangioma on the back. She was mildly mentally retarded. Only a few patients with a partial deletion of 14q (14q-) have been reported without consistent clinical findings. Although a clinical syndrome associated with ring chromosome 14, r(14), has been established, no distinct pattern has been so far reported in 14q-.     

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.     

Terminal deletion of the long arm of chromosome 10

The case of two female patients with de novo terminal deletion of the long arm of chromosome 10, one with del(10)(q26.2) and the other with del(10)(q26.3), is reported. Both presented with megabladder associated with urinary tract abnormalities. The case of four similar patients has been previously reported with bladder dilatation secondary to urinary obstruction. These new cases highlight the possible involvement of the bladder and the urethra in the syndrome of chromosome 10q terminal deletion, suggesting a careful renal and urinary tract evaluation in such situations. Moreover, the possibility of monosomy 10qter syndrome should be borne in mind in the case of prenatal diagnosis of apparently isolated bladder obstruction, especially in females.     

Further delineation of the chromosome 14q terminal deletion syndrome

A patient with hypotonia, blepharophimosis, ptosis, a bulbous nose, a long philtrum, upturned corners of the mouth, and mild developmental delay was found to have a small subtelomeric deletion of the long arm of chromosome 14 (q32.31-qter). In comparing her phenotype with previously reported patients with similar 14q deletions, due to either a linear deletion or to a ring chromosome 14, a clinically recognizable terminal 14q microdeletion syndrome was evident. Due to the limited number of cases reported, it was not possible to assign specific features to specific regions of terminal 14q. The comparison of features in cases with a linear deletion of 14qter (n = 19) to those in cases with a deletion due to a ring chromosome 14 (n = 23), both with the same breakpoint in 14q, showed that seizures and retinitis pigmentosa have been found only in patients with ring chromosomes. Several hypotheses are put forward to explain this difference: mitotic instability of ring chromosomes; a telomere position effect in ring chromosomes in which the 14p telomere silences nearby gene(s) on the q-arm; and dose-dependent gene(s) involved in seizures and retinitis pigmentosa located on the short arm of chromosome 14. In our opinion, only seizures may be explained by the mitotic instability of ring chromosomes, while both seizures and retinitis pigmentosa may be explained by silencing of gene(s) on 14q by the 14p telomere; the third hypothesis seems unlikely to explain either symptom.     

Child with multiple congenital anomalies and mosaicism 46, XX/46,XX,del (14)(q32.3)

We report on a female infant with multiple congenital anomalies and severe developmental delay in association with a rare, terminal deletion of chromosome 14 [karyotype:mosaic. 46,XX/46,XX del (14) (q32.3) = 36%:64%]. © 1992 Wiley-Liss, Inc.     

Another patient with a de novo deletion further delineates the 2q33.1 microdeletion syndrome

A male patient, who had intra-uterine growth retardation, a low birth weight and hypotonia due to a chromosome 2q33.1 deletion, is described. At the age of 20 years, he displays short stature, microcephaly, a high forehead, microstomia, large teeth and is hypertonic. He is severely mentally retarded, has not developed speech, is hyperactive, anxious and at times aggressive. Full tiling array showed a de novo 14 Mb deletion at chromosome region 2q32.3q33.2, further delineating the 2q33.1 microdeletion syndrome.     

Isolated 6q terminal deletions: an emerging new syndrome

Deletions of the distal part of the 6q chromosome have not been associated with a clearly distinctive and recognizable phenotype. In order to determine if a "6q terminal deletion syndrome" could be delineated, we compared the phenotype of two new cases with those patients reported in literature presenting with a similar deletion. Cases with more complex karyotypes were excluded. The deletion in our patients was accurately analyzed by loss of heterozygosity (LOH) and fluorescence in situ hybridization (FISH) with a panel of probes located around the putative breakpoint. Interestingly, the breakpoints were located in 6q26 in both our patients, distally to clone RP11-150P20 and proximally to clone RP11-152P19, with a deletion size of approximately 8 Mb. The breakpoints fall within the fragile site FRA6E. From a careful evaluation of the selected patients, a common phenotype emerged, including psychomotor retardation, hypotonia, seizures, short neck, and typical facial anomalies, along with nonspecific anomalies. While these features are shared by other chromosome syndromes and are not sufficient on their own for a clinical diagnosis, when considered together, the pattern can allow the identification of the "6q terminal deletion syndrome." Moreover, the potential role of FRA6E in generating these deletions is suggested.     

A report of a child with a deletion (9)(q34.3): a recognisable phenotype?

We report a case of a male infant who presented with congenital anomalies and was found to have a de novo deletion in the terminal region of the long arm of chromosome 9. He died at the age of 17 weeks of cardiorespiratory failure owing to RSV positive bronchiolitis. A review of previously published reports documented one previous report of a patient with a deletion of (9)(q34.3) and multiple congenital anomalies. Comparison with the previously reported case suggests that the phenotype observed constitutes a clinically recognisable pattern of malformations.     

Submicroscopic deletion in 14q32.3 through a de novo tandem translocation between 14q and 21p

We describe a male child with craniofacial anomalies, postnatal onset growth retardation, microcephaly, multiple minor anomalies, hearing loss, and moderate delay of mental and statomotor development. He carries a previously undescribed tandem translocation between the long arm of chromosome 14 and the short arm of chromosome 21 that arose de novo. As proven by fluorescence in situ hybridization a microdeletion not detectable with high-resolution G-banding occured in 14q32.3, the terminal band on the long arm of chromosome 14. The resulting phenotype includes most abnormalities encountered in patients with terminal 14q32.3 deletions but in addition includes some characteristics of the ring chromosome 14 syndrome. Am. J. Med. Genet. 80:443–447, 1998. © 1998 Wiley-Liss, Inc.     

Multiple hemangiomas in a patient with a t(3q;4p) translocation: an infrequent association with Wolf-Hirschhorn syndrome

We report on the clinical phenotype of an infant with a duplication of the terminal portion of the long arm of chromosome 3(q26.3-qter) and a deletion of the terminal portion of the short arm of chromosome 4(p16.3) with multiple hemangiomas and a hamartoma. Patients with deletions of distal 4p have the characteristic features of Wolf-Hirschhorn syndrome (WHS); whereas those with the distal duplication of 3q have a well recognized syndrome with some features resembling Cornelia-de Lange syndrome (CdLS). Neither of these recognized chromosomal anomalies has been reported previously to be associated with multiple hemangiomas or other vascular malformations.