Jozefa C.M. Albrechts

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.

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.

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.

Characterization of a de novo unbalanced translocation t(14q18q) using microdissection and fluorescence in situ hybridization

We report on a patient with a de novo translocation between the long arms of chromosomes 14 and 18. The translocation was studied using microdissection in combination with fluorescence in situ hybridization (micro-FISH). Five copies of the chromosomes involved in the translocation were isolated by microdissection and amplified by means of degenerate oligonucleotide primed-polymerase chain reaction (DOP-PCR). Reverse chromosome painting with the biotin-labeled PCR product showed that part of the q-arm of chromosome 18 had no signal. The deletion was characterized further by FISH with band-specific probes and it was concluded that the rearrangement was unbalanced: 46,XY,t(14;18)(14pter-->14q22::18q21.1-->18qter) (18pter-->18q12.2::14q22-->14qter). The patient, who presented with psychomotor retardation, mild obesity, pes equinovarus, strabismus, and facial anomalies, is compared with previously reported patients with an interstitial deletion of band 18q12.

Partial trisomy and monosomy 8p due to inversion duplication

Fluorescent in situ hybridization with probes specific for a chromosomal subregion and chromosome‐specific libraries (chromosome painting) are important new methods for assessing chromosome rearrangements. In this paper we present four patients with additional chromosomal material on chromosome 8p who have been studied using G‐banding techniques, chromosome painting and FISH with cosmid probes specific for the region 8p23.1 → 8pter. In all cases we found a partial inversion duplication of 8p along with a deletion of the region 8p23.1 → 8pter.

Spectral Karyotypic and Comparative Genomic Analysis of the Endocrine Pancreatic Tumor Cell Line BON-1

BON-1 is a human serotonin-producing endocrine pancreatic tumor (EPT) cell line, which has been used for various studies of tumorigenesis and treatment. Because its genotype, phenotype and degree of differentiation may underlie events that are instrumental to the development of endocrine tumors and, moreover, may vary between labs and over time, we decided to comprehensively characterize the chromosomal constitution of BON-1 by applying conventional GTG-banding, spectral karyotyping (SKY), comparative genomic hybridization (CGH) and fluorescence in situ hybridization (FISH). BON-1 cells proved to be hyperdiploid containing a modal chromosome number of 57 (range 56–64). SKY identified a stemline containing 6 clonal aberrations including del(1p), t(9;12)del(9p)x2, der(10)t(5;10), der(19)t(8;19), der(14)t(9;14)t(9;10), and a sideline harboring an additional del(12q). CGH and FISH confirmed the SKY results and, in addition, highlighted the chromosomal regions involved in the rearrangements. Moreover, they identified a homozygous deletion of the key tumor suppressor genes CDKN2A and CDKN2B at 9p21.3, in accordance with absence of p16INK4A and p14ARF expression as revealed by immunocytochemistry. Apart from deregulation of the cell cycle and p53 pathway this finding indicates escape from replicative senescence (induced by mutated NRAS) and detachment-induced apoptosis as molecular mechanisms underlying the tumorigenesis of BON-1 cells. Immunostaining results for p53, MDM2 and pRb expression were consistent with previously published data using Western analysis. In conclusion, we provide here a comprehensive cytogenetic profile of BON-1. This cell line harbors both numerical and structural genomic alterations indicative for malignant EPTs.

Two cases of partial trisomy 8p and partial monosomy 21q in a family with a reciprocal translocation (8;21)(p21.1;q22.3).

We report on two mentally retarded adults with an unbalanced karyotype resulting from a familial balanced translocation between chromosomes 8 and 21, t(8;21)(p21.1;q22.3). This translocation has not been reported before. Both patients had partial trisomy 8p and partial monosomy 21q. Fluorescence in situ hybridisation (FISH) was used to determine the chromosomal breakpoints more precisely. The first patient showed mild mental retardation and facial dysmorphism, slightly resembling the earlier described trisomy 8p phenotype. He did not resemble his affected niece, who was more severely retarded, had serious epilepsy, but lacked the facial dysmorphism. Comparing the data of both patients with published reports of trisomy 8p, marked differences were found between patients with an inversion duplication (inv dup) 8p, patients with partial trisomy 8p caused by an unbalanced translocation, and our patients. Inv dup(8p) causes a recognisable phenotype, whereas the phenotype of trisomy 8p resulting from a translocation is much more variable, probably because of the accompanying monosomies. However, even the same abnormal karyotype can cause different phenotypes, as our patients show. Counselling carriers of the balanced translocation in this family, a 20-25% recurrence risk for unbalanced offspring and a 25% risk for miscarriages seem appropriate.

Familial dup(8)(p12p21.1): mild phenotypic effect and review of partial 8p duplications

We describe a family with direct transmission of a duplication of 8p12-->8p21.1. The phenotype of affected relatives included mild mental retardation but no minor anomalies. The duplication was identified by means of GTG-banding and fluorescence in situ hybridization with a probe specific for 8p12 generated by microdissection and degenerate oligonucleotide primed-polymerase chain reaction. Assay of glutathione reductase, which has been localised to 8p21.1, was significantly increased when compared with controls with normal chromosomal constitution. To the best of our knowledge, a proximal direct duplication of 8p restricted to subbands p12-->p21.1 has not been reported so far. The reported aberration is compared with other partial duplications of 8p, in particular to inversion duplications 8p and to small direct distal duplications involving 8p23.1. Am. J. Med. Genet. 94:306-310, 2000.

Mosaic telomeric (2;14) association in a child with motor delay.

In a 6-year-old girl referred because of mild motor delay and hyperextensible joints, chromosome analysis disclosed a derivative chromosome consisting of end-to-end fusion of chromosomes 2 and 14. Two cell lines existed in which this telomere association was present, one with a 45,XX,tas(2;14)(q37;p11) karyotype and one with a 45,XX,tas(2;14) (q37;q32) karyotype. The cell line with the telomeric fusion of 2q and 14p was present in 90% of the cells; a telomeric fusion of 2q and 14q was seen in the remaining 10% of the cells. In both association complexes, only the centromere of chromosome 14 was active. Fluorescence in situ hybridization with telomere and subtelomere probes disclosed no deletion of chromosomal material. Microsatellite analysis showed that the patient had a normal biparental contribution of chromosomes 14.

Disclosure of five breakpoints in a complex chromosome rearrangement by microdissection and FISH.

Microdissection and fluorescence in situ hybridisation (FISH) were used to elucidate the nature of a complex chromosome translocation, after GTG banding failed in the complete characterisation of the structural rearrangement between chromosomes 6 and 12. These chromosomes were painted with chromosome specific paints and one of the chromosome regions involved in the translocation was isolated by microdissection. Ten copies of the microdissected region were collected with microneedles from GTG banded metaphases, transferred to a collecting drop, and amplified by means of DOP-PCR. The PCR product was labelled with biotin-14-dATP and used as a FISH probe for hybridisation to normal metaphase chromosomes and metaphase chromosomes of the patients (microFISH). FISH with this chromosome region specific painting probe and with chromosome band specific probes enabled the characterisation of a complex chromosome rearrangement with five breakpoints in two chromosomes. This resulted in the following karyotype: 46,XY,t(6;12)(6pter--> 6q12::12q24.1-->12qter;12qter-->12q13.3:: 6q16.2-->6q26::12q13.3-->12q24.1::6q12--> 6q16.2::6q26-->6qter).