Blepharophimosis sequence (BPES) and microcephaly in a girl with del(3) (q22.2q23): A putative gene responsible for microcephaly close to the BPES gene?

We report on a girl with the blepharophimosis sequence (BPES), microcephaly of postnatal onset, mild developmental retardation, and a deletion: 46,XX,del(3) (q22.2q23) de novo. A gene for BPES is suspected to be located at 3q23. Almost all cases with interstitial deletions containing 3q23 have not only BPES but also microcephaly and developmental retardation, while those without deletions, including those with apparently balanced translocations, only have BPES. Thus, a putative gene responsible for microcephaly may exist close to BPES gene. BPES, microcephaly, developmental retardation, and primary amenorrhea might constitute a contiguous gene syndrome. © 1993 Wiley-Liss, Inc.     

Blepharophimosis,ptosis, and epicanthus inversus syndrome (BPES) associated with interstitial deletion of band 3q22: Review and gene assignment to the interface of band 3q22.3 and 3q23

We report on a child with blepharophimosis, ptosis, and epicanthus inversus (BPES), developmental delay and an interstitial deletion of band q22 of chromosome 3. A review of chromosome 3q anomalies associated with eye abnormalities, specifically blepharophimosis and ptosis, strongly suggests that a locus for eyelid development is present at the interface of bands 3q22.3 and 3q23. © 1993 Wiley-Liss, Inc.     

Interstitial deletion of 14q24.3-q32.2 in a male patient with plagiocephaly, BPES features, developmental delay, and congenital heart defects

Distal interstitial deletions of chromosome 14 involving the 14q24‐q23.2 region are rare, and only been reported so far in 20 patients. Ten of these patients were analyzed both clinically and genetically. Here we present a de novo interstitial deletion of chromosome 14q24.3‐q32.2 in a male patient with developmental delay, language impairment, plagiocephaly, BPES features (blepharophimosis, ptosis, epicanthus), and congenital heart defect. The deletion breakpoints were fine mapped using fluorescence in situ hybridization (FISH) and the size of the deletion is estimated to be approximately 23 Mb. Based on genotype–phenotype comparisons of the 10 previously published patients and the present case, we suggest that the shortest regions for deletion overlap may include candidate genes for speech impairment, mental retardation, and hypotonia. © 2010 Wiley‐Liss, Inc.     

Boy with a chromosome del (3)(q12q23) and Blepharophimosis syndrome

We report on a 6-year-old boy with de novo 46, XY, del(3)(q12q23) and bilateral blepharo-phimosis, ptosis, epicanthus inversus, in addition to multiple other anomalies. Since 4 previously reported cases of interstitial deletion of 3q involving 3q23 band are clinically similar, we propose this blepharophimosis sequence due to 3q23 deletion as a further “contiguous gene syndrome”.     

Blepharophimosis sequence and diaphragmatic hernia associated with interstitial deletion of chromosome 3 (46,XY,del(3)(q21q23)).

A case of blepharophimosis, ptosis, and epicanthus inversus (BPES) associated with prenatally diagnosed diaphragmatic hernia and interstitial deletion of the long arm of chromosome 3, del(3)(q21q23), is reported. Comparison with other cases of BPES resulting from 3q rearrangements indicate that this disorder, previously assigned to 3q2, can now be more accurately mapped to 3q23.     

Further evidence for the location of the blepharophimosis syndrome (BPES) at 3q22.3-q23

Fryns JP, Strømme P, van den Berghe H. Further evidence for the location of the blepharophimosis syndrome (BPES) at 3q22.3-q23.
Clin Genet 1993: 44: 149–151. © Munksgaard, 1993
We report a 6-year-old, mentally retarded boy with typical clinical signs and symptoms of the blepharophimosis syndrome ( b lepharophimosis, p tosis, e picanthus inversus s yndrome (BPES)), born to normal parents. Chromosome studies revealed an interstitial deletion in the long arm of chromosome 3: del(3)(q22.3—q23). This observation reinforces previous suggestions that the location of the BPES gene is at 3q2, i.e. 3q22.3-q23.     

Familial t(11;13)(q21;q14) and the duplication 11q, 13q phenotype

Cases of duplication of distal 11q or proximal 13q have been reported independently. A specific translocation resulting in duplication of distal 11q, [der(22)t(11;22)(q23;q11)], has been documented in over 40 cases. We report on a male fetus with chromosomal excess of both distal 11q and proximal 13q resulting from a familial translocation. This case supports the causal association of duplication 11q with neural tube defects. © 1993 Wiley-Liss, Inc.     

Blepharophimosis,ptosis, epicanthus inversus syndrome with translocation and deletion at chromosome 3q23 in a black African female

Blepharophimosis–ptosis–epicanthus inversus syndrome (BPES) is a rare autosomal dominant disorder whose main features are the abnormal shape, position and alignment of the eyelids. Type I refers to BPES with female infertility from premature ovarian failure while type II is limited to the ocular features. A causative gene, FOXL2, has been localized to 3q23. We report a black female who carried a de novo chromosomal translocation and 3.13 Mb deletion at 3q23, 1.2 Mb 5′ to FOXL2. This suggests the presence of distant cis regulatory elements at the extended FOXL2 locus. In spite of 21 protein coding genes in the 3.13 Mb deleted segment, the patient had no other malformation and a strictly normal psychomotor development at age 2.5 years. Our observation confirms panethnicity of BPES and adds to the knowledge of the complex cis regulation of human FOXL2 gene expression.     

Definition of the blepharophimosis, ptosis, epicanthus inversus syndrome critical region at chromosome 3q23 based on the analysis of chromosomal anomalies

Blepharophimosis syndrome (BPES) is an autosomal dominant disorderof craniofacial development, the features of which are smallpalpebral fissures (blepharophimosis), drooping eyelids (ptosis)and a skin fold arising from the lower eyelid (epicanthus inversus).The chromosomal localization and identity of the BPES locusis not known with certainty. In the current paper, DNA samplesfrom three individuals with a clinical history of BPES, twowith Interstitial deletions (cases 1 and 2) and one with a balancedtranslocation (case 3) all involving chromosome 3q23, were analyzed.Allele loss studies using short tandem repeat markers in cases1 and 2 suggested that the region between the markers D3S1292and D3S1306 was deleted in both cases. Subsequently, the derivedchromosomes resulting from the translocation in case 3 weresegregated in interspecific somatic cell hybrids. Analysis ofthe resultant hybrids showed that D3S1615 was retained in thederived chromosome 3, whereas D3S1316 was retained in the derivedchromosome 4. In neither case was the marker present in thereciprocal hybrid. These results indicate that the BPES criticalregion lies in the D3S1615–D3S1316 interval.     

Blepharophimosis sequence and de novo balanced autosomal translocation [46, XY,t(3;4)(q23;p15.2)]: Possible assignment of the trait to 3q23

We report on a boy with the blepharophimosis sequence and de novo, apparently balanced reciprocal translocation between 3q23 and 4p15.2 [46, XY,t(3;4)(q23;p15.2)de novo]. Possible assignment of this autosomal dominant disorder is discussed. A 3q23 band is a more preferable gene locus of the blepharophi mosis sequence, based on the comparison of clinical manifestations between 4p- and 3q-syndromes.     

Partial trisomy 3q syndrome inherited from familial t(3;9)(q26.1; p23)

A five-year-old girl was referred to prometaphase chromosome analysis because of mental retardation, facial dysmorphic features suggestive of Cornelia de Lange syndrome, cleft palate and additional minor congenital malformations of the cardiac system and fingers and toes. A familial balanced translocation (3;9)(q26.1; p23) was found. The karyotype of the proposita was 46,XX,der(9),t(3;9)(q26.1;p23). Thus the patient was trisomic for 3q26.1-qter and monosomic for 9p23-pter. The unbalanced chromosome constitution was not detected by standard Q-banding analysis shortly after birth. The karyotype was misdiagnosed as 46,XX,9(p+) in the proposita and her mother, and thought to be a normal variant of chromosome 9. The repeated cytogenetic study led to the diagnosis of the translocation and to the possibility of prenatal diagnosis in the translocation carriers. A survey of 22 published cases of dup(3q) showed that nearly 60% were secondary to familial balanced rearrangements with an excess of maternally derived abnormal chromosomes 3. Red blood cell galactose-1-phosphate-uridyltransferase (GALT) activity was normal in the patient, consistent with previous assignment of the gene locus for GALT to 9p13 (Shih et al. 1982).     

Meiotic segregation in familial reciprocal translocation t(8q;22q)

We studied the chromosomes of a mentally retarded boy with minor anomalies and of his parents using a G-band stained high-resolution chromosome method. This documented dup (8q24.1 → 8qter) and dup(22pter → 22q11.2) in the boy due to a maternal balanced reciprocal translocation of chromosomes 8 and 22 and 3:1 disjunction during meiosis I. The karyotype of the boy is 47, XY, + der(22) (22pter → 22q11.2::8q24.1 → 8qter). The der(22) was involved in satellite associations and stained positively with AgNO₃ in mother and child. The case is compared to similar cases in the literature and the function of the small acrocentric marker chromosome during meiosis is discussed.     

Delineation of a recognisable phenotype of interstitial deletion 3 (q22.3q25.1) in a case with previously unreported truncus arteriosus

Interstitial deletions of chromosome 3q22.3–25.1 are very rare with only five previous reports of deletions in this region [1], [2], [4], [7], [9]. We describe a case of a female infant with a de novo deletion. Dysmorphic features and congenital heart disease led to a clinical genetics assessment on day 1 of life. Chromosomal analysis showed an interstitial deletion with a female karyotype 46,XX,del (3)(q23q25.1)dn. Subsequent array CGH demonstrated the breakpoints as 3q22.3q25.1. This is the first documented association with a truncus arteriosus. We identify an emerging clinical phenotype of microphthalmia, microcephaly, congenital heart disease, slow feeding, skeletal abnormalities, with an abnormal facies and developmental delay. Array CGH demonstrated that the FOXL2 gene responsible for BPES was not deleted in this patient.     

Girl with combined cellular immunodeficiency,pancytopenia, malformations,deletion 11q23.3 → qter,and trisomy 8q24.3 → qter

We describe here a 3‐year‐old girl demonstrating combined cellular immunodeficiency of B‐ and T‐cells, pancytopenia, multiple anomalies, and severe mental retardation. Cytogenetic analysis and fluorescent in situ hybridization (FISH) indicated an unbalanced translocation of chromosomes 8q and 11q, resulting in monosomy 11q23.3‐qter and trisomy 8q24.3‐qter. The association of cellular immunodeficiency and partial deletion 11q and/or partial trisomy 8q has not been described previously; however, the 11q deletion has been reported with humoral immunodeficiency or pancytopenia. Some one‐third to one‐half of patients with partial monosomy 11q were reported to have pancytopenia, which has been related to the absence of the 11q23‐q24 region. Our case narrows down the critical interval for thrombo‐ or pancytopenia to 11q23.3‐q24 and excludes both the ATM (which resides on 11q23.1) and the MLL genes as possible candidate genes. We are proposing that haploinsufficiency of the NFRKB gene on 11q24‐q25 and/or the ETS‐1 proto‐oncogene on 11q24 may have caused or contributed to the immunodeficiency (decreased levels of B‐ and T‐lymphocytes) in our patient. © 2002 Wiley‐Liss, Inc.     

Interstitial deletion of chromosome 5 in a neonate due to maternal insertion,ins(8;5)(p23;q33q35)

We describe an infant girl with an interstitial deletion of chromosome bands 5q33 to 5q35 inherited from a maternal interchromosomal insertion ins(8;5)(p23;q33q35) which was demonstrated by fluorescent in situ hybridization with whole chromosome paints. Physical anomalies included hypertonicity, microcephaly, short neck, apparently low-set ears, micrognathia, camptodactyly, mild rocker bottom feet, and hammer toe. Cardiac anomalies included a large ventricular septal defect, patent ductus arteriosus, pulmonary hypertension and hypoplastic right ventricle. She died at age 3 months. Am. J. Med. Genet. 86:289–293, 1999. © 1999 Wiley-Liss, Inc.     

Partial duplication of 3q (q25.1→q26.1) without the Brachmann-de Lange phenotype

Partial duplications of chromosome 3 have previously been reported to have phenotypic characteristics similar to Brachmann-de Lange syndrome (BDLS). We present the case of a 13-Year-old girl with an apparent duplication in the 3q25.1→q26.1 region but none of the manifestations commonly seen in BDLS. The chromosome 3 duplication was confirmed with a FISH painting probe of the involved region. These results suggest that the region critical for Brachmann-de Lange syndrome is not within the duplicated region of 3q25.1→q26.1. © 1993 Wiley-Liss, Inc.     

Blepharophimosis syndrome is linked to chromosome 3q

Blepharophimosis syndrome (BPES, blepharophimosis eyelid syndrome)is a distinctive congenital eyelid malformation which can occursporadically or be inherited in an autosomal dominant fashion.Previous reports have described associated cytogenetic abnormalitieson chromosome 3q. We have ascertained and sampled two BPES familieswith apparent autosomal dominant inheritance and have testedfor linkage with 17 polymorphic markers on 3q. Multipoint analysisgenerated a maximum LOD score of 3.23 using the markers RHO,ACPP and D3S1238. No evidence of genetic heterogeneity was observed.These studies provide the first non—cytogenetic evidencethat a defective gene responsible for BPES is located on 3q22.