J. J. M. Engelen

Duplication of chromosome region 8p23.1-->p23.3: a benign variant?

Chromosome analysis was performed in a 34-year-old man who was phenotypically normal except for oligoasthenozoospermia. In this patient, analysis of GTG-banded chromosomes showed in one chromosome 8 additional chromosomal material of unknown origin. To characterize the aberrant chromosome more precisely, a paint specific for chromosome region 8pter-->8p23.1 was generated by microdissection and degenerated oligonucleotide primed-polymerase chain reaction (DOP-PCR) and used as fluorescence in situ hybridization (FISH) paint. After reverse painting, hybridization signals were only found on the short arm of the two chromosomes 8, with an enlarged signal on the derivative chromosome 8. The duplication was characterized further with band-specific FISH probes. We concluded that (part of) chromosome region 8p23.1-->p23.3 was duplicated. Chromosome analysis of the parents showed that the dup(8) was of maternal origin and that the fertile brother of the index patient also was a carrier of the chromosome aberration. There was no history of miscarriages. We suggest that duplication of region 8p23.1-->p23.3 can be regarded as euchromatic variant or duplication with no phenotypic effect.

Identification of novel dyslexia candidate genes through the analysis of a chromosomal deletion

Dyslexia is the most common childhood learning disorder and it is a significantly heritable trait. At least nine chromosomal loci have been linked to dyslexia, and additional susceptibility loci on other chromosomes have been suggested. Within two of these loci, DYX1C1 (15q21) and ROBO1 (3p12) have recently been proposed as dyslexia candidate genes through the molecular analysis of translocation breakpoints in dyslexic individuals carrying balanced chromosomal translocations. Moreover, genetic association studies have indicated a cluster of five dyslexia candidate genes in another linkage region on chromosome 6p22, although there is currently no consensus about which of these five genes contributes to the genetic susceptibility for dyslexia. In this article, we report the identification of four new dyslexia candidate genes (PCNT, DIP2A, S100B, and PRMT2) on chromosome region 21q22.3 by FISH and SNP microarray analyses of a very small deletion in this region, which cosegregates with dyslexia in a father and his three sons.

A simple and efficient method for microdissection and microFISH.

A simple and efficient method for the dissection of (marker) chromosomes, (micro)nuclei, and chromosome regions is presented. Before microdissection, metaphases are overlaid with milli-Q water to rehydrate the chromosomes, which makes them soft and sticky. The dissected chromosome fragments are dissolved without proteinase-K or topoisomerase treatment and directly amplified using a degenerate oligonucleotide primed polymerase chain reaction (DOP-PCR). The advantages of this microFISH method over previously reported methods are: (1) microdissection in this way is very fast; (2) a chromosome, marker, (micro)nucleus, or chromosome region is collected as a whole using only one microneedle; (3) the dissected material sticks tightly to the needle without the risk of getting lost; (4) no Sequenase is used in the DOP-PCR reaction which reduces the risk of contamination.

Partial trisomy of the short arm of chromosome 18 due to inversion duplication and direct duplication

We report one patient with a de novo inversion duplication 18 (ptercen) and two cases of direct tandem duplication 18 (ptercen), one due to maternal inheritance and the other arising as mosaicism of unknown origin. The duplications are demonstrated by high resolution banding. They were verified by in situ hybridization with a paint specific for chromosome 18 and with DNA probe LI.84 specific for the centromere region of chromosome 18. FISH with the genomic DNA probe pHRR68 specific for 18p11.32 revealed a subtle deletion concomitantly involved in the case of inversion duplication 18p. The patients exhibit slight developmental delay/moderate mental retardation and only a few dysmorphic features. The literature on trisomy 18p is reviewed and the present cases are compared to it.

FISH characterisation of an identical (16)(p11.2p12.2) tandem duplication in two unrelated patients with autistic behaviour

Partial trisomy 16p is a rare chromosomal anomaly in newborns: of the fewer than 30 carrier patients so far reported, most were born to parents with a balanced translocation involving the p arm of chromosome 16.1 Pure partial trisomy 16p has been reported in seven patients,2–6 three of whom (all showing behavioural problems with autistic traits) carried a tandem duplication of the (16)(p11.2–p12) region4,6; minor dysmorphisms were reported in only one patient.4 Linkage studies indicated chromosome 16p as a major location for autism susceptibility genes,7 while association was reported between autistic traits and attention deficit or hyperactivity disorders mapping to the 16p13 band.8 In addition TSC2, one of the genes responsible for tuberous sclerosis, a syndrome often associated with autistic traits, maps to the same cytogenetic band.9 We report the clinical phenotype and refined molecular cytogenetic characterisation of a patient carrying a (16)(p11.2p12.2) duplication. By extending the FISH analysis to a previously described patient with an apparently similar chromosomal rearrangement,6 we found that low copy repeats map to the 16p11.2 and 16p12.2 duplication endpoints, suggesting non-allelic homologous recombination as the pathogenetic mechanism. This finding is consistent with the non-random occurrence of the observed chromosomal rearrangement and the high frequency of segmental duplications identified throughout chromosome 16.10–12 We also inferred from genotype-phenotype correlation studies that genes involved in autism susceptibility are located within the duplicated region. Patient 1 is a 25 year old man, the first son of unrelated parents. At the time of his birth, his mother was aged 30 and his father 29 years. He was born at term with a weight of 2.550 kg (3rd centile). The father suffered from alcohol misuse and left the family when the patient was 12 years old. Because of …

Familial partial trisomy 8p without dysmorphic features and only mild mental retardation

We report on a mother and her two sons who had a direct duplication of chromosome region 8p22-8p23.1 without dysmorphic features and only mild mental retardation. The patients have been studied using G banding, chromosome painting, and FISH using cosmid probes specific for the region 8p23.1-8pter. Comparison of the phenotypes of our patients and of published patients with an inversion duplication of the short arm of chromosome 8 indicates that trisomy for chromosome band 8p21 causes the more severe clinical picture in the latter.

Deletion of the long arm of chromosome 6: two new patients and literature review.

Two children with a partial monosomy 6q are reported: a girl with an interstitial deletion [46, XX, del(6)(q16.2q23.1)], and a boy with a terminal deletion [46, XY, del(6)(q25.1)]. Both children presented with developmental delay, facial dysmorphism and a cardiac defect. The patients have been studied using G banding and cosmid probes specific for the long arm of chromosome 6. Clinical data are compared with patients reported in the literature.

Severe feeding problems and congenital laryngostenosis in a patient with 3q23 deletion

Abstract Common clinical features of patients with 3q23 deletion include the phenotype of BPES (blepharophimosis, ptosis, epicanthus inversus and telecanthus syndrome), growth and mental retardation, microcephaly, ear and nose dysmorphism and joint and digit abnormalities. We report on a 3-year-old girl with the phenotype of BPES, mental retardation, facial dysmorphism and camptodactyly. In addition, she had a congenitally small larynx and severe, chronic feeding difficulties. Chromosome studies revealed an interstitial deletion in the long arm of chromosome 3: del(3)(q23-q25) Conclusion Congenital laryngostenosis and severe feeding problems may be part of the clinical syndrome caused by chromosome 3q23 deletion.

Contiguous gene syndrome due to a maternally inherited 8.41 Mb distal deletion of chromosome band Xp22.3 in a boy with short stature, ichthyosis, epilepsy, mental retardation, cerebral cortical heterotopias and Dandy–Walker malformation†

Microdeletions of Xp22.3 are associated with contiguous gene syndromes, the extent and nature of which depend on the genes encompassed by the deletion. Common symptoms include ichthyosis, mental retardation and hypogonadism. We report on a boy with short stature, ichthyosis, severe mental retardation, cortical heterotopias and Dandy–Walker malformation. The latter two abnormalities have so far not been reported in terminal Xp deletions. MLPA showed deletion of SHOX and subsequent analysis using FISH and SNP‐arrays revealed that the patient had an 8.41 Mb distal deletion of chromosome region Xp22.31 → Xpter. This interval contains several genes whose deletion can partly explain our patients phenotype. His cortical heterotopias and DWM suggest that a gene involved in brain development may be in the deleted interval, but we found no immediately obvious candidates. Interestingly, further analysis of the family revealed that the patient had inherited his deletion from his mother, who has a mos 46,X,del(X)(p22)/45,X/46, XX karyotype.

Characterization of partial trisomy 9p due to insertional translocation by chromosomal (micro)FISH

de Pater JM, Ippel PF, van Dam WM, Loneus WH, Engelen JJM. Characterization of partial trisomy 9p due to insertional translocation by chromosomal (micro)FISH. 
Clin Genet 2002: 62: 482–487.