Postzygotic isochromosome formation as a cause for false-negative results from chorionic villus chromosome examinations

OBJECTIVE

To investigate the origin and mechanisms of formation of isochromosomes 13q and 21q in instances where prenatal chromosome examination revealed a normal karyotype while postnatal chromosome examination from blood showed translocation trisomy 13 and 21.

METHODS

G and/or Q-banded chromosome examinations from CVS cultures and lymphocyte chromosome examinations from two newborns. Microsatellite marker analysis of DNA from the probands and their parents. Prenatal ultrasonic examinations of the fetuses and postnatal clinical examinations of the probands.

RESULTS

Short and long-term CVS examinations from two fetuses revealed normal karyotypes. Lymphocyte karyotypes of the newborns showed the karyotype 46,XY,i(21)(q10) in the first case and 46,XY,i(13)(q10) in the second. The isochromosomes 21q and 13q were shown, by microsatellite marker analysis of the patients and their parents, to be of maternal and paternal origin, respectively.

CONCLUSION

Postzygotic isochromosome formation is one of the possible mechanisms that may lead to false-negative results of chorionic villus chromosome examinations, even if both short-term and long-term cultures are performed and give normal results.

An unusual reciprocal translocation detected by subtelomeric FISH: Interstitial and not terminal

An 11-month-old boy with a pattern of dysmorphic signs, an atrial septal defect, right inguinal hernia, bilateral undescended testes, bilateral urinary reflux, right renal dysplasia, and developmental delay had an abnormal chromosome 11 with additional material of unknown origin attached to the long arm in his karyotype. The paternal karyotype was normal 46,XY, while the mother's karyotype was 46,XX,t(2;11)(q35;q24.2). Thus, a reciprocal terminal exchange was assumed resulting in duplication of distal 2q material and a small subterminal 11q deletion. However, application of subtelomeric fluorescence in situ hybridization (FISH) probes indicated that the translocation was not a terminal reciprocal exchange, but was interstitial at least for one of the chromosomes, which would be highly unusual since most interstitial translocations are non-reciprocal. Based on the results of FISH and microsatellite marker examinations, the designation of the breakpoints and thus of the deleted and duplicated segments had to be revised. The findings have implications for karyotype-phenotype correlation.

Unbalanced 18q/21q translocation in a patient previously reported as monosomy 21

We describe a patient in whom full monosomy 21 was initially assumed from routine GTG-banded karyotyping. Re-examination with chromosome painting demonstrated an unbalanced translocation between the long arms of chromosomes 18 and 21. Fluorescence in situ hybridisation (FISH) and microsatellite marker analysis revealed partial monosomy of chromosome 21 (pter-q21) and 18(q22-qter). The patient, 18 years old at the second examination, revealed multiple dysmorphic features, genital hypoplasia, dilated cerebral ventricles, muscular hypotonia and severe mental retardation. In not one out of all patients investigated postnatally in whom an initial examination had revealed monosomy 21, this could be confirmed by FISH; in all of them, re-examination detected an unbalanced rearrangement leading to only partial monosomy 21 plus partial monosomy of another chromosome to which the distal 21q segment was attached. Thus, it is still highly likely that full monosomy 21 is incompatible with intra-uterine survival.

M-FISH applications in clinical genetics

Until recently, presence of de novo marker or derivative chromosomes was quite problematic for genetic counseling especially in prenatal diagnosis, because characterization of marker and derivative chromosomes by conventional cytogenetic techniques was nearly impossible. However, recently developed molecular cytogenetic technique named Multicolor Fluorescence in Situ Hybridization (M-FISH) which paints all human chromosomes in 24 different colors allows us to characterize marker and derivative chromosomes in a single hybridization. In this study, we applied M-FISH to determine the origin of 3 marker and 3 derivative chromosomes. Marker chromosomes were found to originate from chromosome 15 in two postnatal and one prenatal case. Of these, one of the postnatal cases displayed clinical findings of inv dup (115) syndrome and the other of infertility, and the prenatal case went through amniocentesis due to the triple test results. Karyotypes of the patients with derivative chromosomes were designated as 46,XY,der (21)t(1;21)(q32;p11), 46,XX,der(8)t(8;9)(p23;p22) and 46,XX,der(18)t(18;20)(q32;p11.2) according to cytogenetic and M-FISH studies. All of the M-FISH results were confirmed with locus specific or whole chromosome painting probes. The case with der (8)t(8;9) had trisomy 9(p22-pter) and monosomy 8(p23-pter) due to this derivative chromosome. The case with der(18)t(18;20) had trisomy 20(p11.2-pter) and monosomy 18(q32-qter). Parental origins of the derivative chromosomes were analyzed using microsatellite markers located in the trisomic chromosomal segments. Patients' clinical findings were compared with the literature.

A case with de novo interstitial deletion of chromosome 7q21.1-q22

A case with de novo interstitial deletion of chromosome 7q21.1-q22: A patient with multiple congenital anomalies was found to have a de novo proximal interstitial deletion of chromosome 7q21.1-q22. The patient was 10.5 years of age, and manifestations include growth retardation (below 3rd percentile), mental retardation, mild microcephaly, hypersensitivity to noise, mild spasticity, short palpebral fissures, alternant exotropia, compensated hypermetropic astigmatism, hypotelorism, hypoplastic labia majora and minora, clinodactyly of fingers 4 and 5. Molecular studies revealed that the deletion had a paternal origin, while chromosomes of both parents cytogenetically were shown to be normal. Molecular, and fluorescence in situ hybridization (FISH) analyses confirmed no deletion at the Williams-Beuren Syndrome region. Some of the heterogeneous clinical findings were consistent with previously reported cases of same chromosomal breakpoints.

Mosaic imprinting defect in a patient with an almost typical expression of the Prader–Willi syndrome

We describe a young woman with Prader-Willi syndrome (PWS) due to a mosaic imprinting defect. Three independent assays revealed a reduced proportion of nonmethylated SNURF-SNRPN alleles in peripheral blood DNA: methylation-specific PCR followed by denaturing high-performance liquid chromatography (MSP/DHPLC), methylation-sensitive restriction enzyme analysis and methylation-specific real-time PCR analysis. Microsatellite analysis and fluorescence in situ hybridisation revealed apparently normal chromosomes 15 of biparental origin. Based on the MSP/DHPLC and real-time PCR results, we estimate that approximately 50% of the patient's blood cells have an imprinting defect and 50% of the cells are normal. Apart from a rather normal facial appearance, the proband has typical features of PWS.

Strong temperature dependence of irradiation effects in organic layers

Radiation damage of self-assembled monolayers, which are prototypes of thin organic layers and highly organized biological systems, shows a strong dependence on temperature. Two limiting cases could be identified. Reactions involving transport of single atoms and small fragments proceed nearly independent of temperature. Reactions requiring transport of heavy fragments are, however, efficiently quenched by cooling. We foresee the combined use of temperature and irradiation by electrons or photons for advanced tailoring of self-assembled monolayers on surfaces. In addition, our results have direct implications for cryogenic approaches in advanced electron and x-ray microscopy and spectroscopy of biological macromolecules and cells.

Non-random asynchronous replication at 22q11.2 favours unequal meiotic crossovers leading to the human 22q11.2 deletion

BACKGROUND

Analyses of the replication timing at 22q11.2 were prompted by our finding of a statistically significant bias in the origin of the regions flanking the deletion site in patients with 22q11.2 deletions, the proximal region being in the majority of cases of grandmaternal origin. We hypothesised that asynchronous replication may be involved in the formation of the 22q11.2 deletion, the most frequently occurring interstitial deletion in humans, by favouring the mispairing of low-copy repeats.

METHODS

Replication timing during S phase at 22q11.2 was investigated by fluorescent in situ hybridisation on interphase nuclei. We report on the detection of non-random asynchronous replication at the human chromosome region 22q11.2, an autosomal locus believed not to contain imprinted genes.

RESULTS

Asynchronous replication at 22q11.2 was observed without exception in all 20 tested individuals; these comprised individuals with structurally normal chromosomes 22 (10 cases), individuals with translocations involving the locus 22q11.2 (eight cases), and patients with a 22q11.2 deletion (two cases). The non-random nature of the asynchronous replication was observed in all individuals for whom the chromosomes 22 were distinguishable. The earlier replicating allele was found to be of paternal origin in all cases where the parental origin of the translocation or deletion was known.

Segmental maternal heterodisomy of the proximal part of chromosome 15 in an infant with Prader–Willi syndrome

Uniparental disomy (UPD) 15, detected in patients with Prader-Willi (PWS) and Angelman syndromes, has to date always involved the entire chromosome 15. We report the first case of segmental maternal uniparental heterodisomy confined to a proximal part of chromosome 15 in a child with clinical features of PWS. This unusual finding can be explained by the rare combination of three consecutive events: a trisomy 15 zygote caused by a maternal meiosis I error, early postzygotic mitotic recombination between maternal and paternal chromatids, and, finally, trisomy rescue by the loss of the rearranged chromosome 15 containing the paternal 15q11-q13 segment.

Parental origin of the two additional haploid sets of chromosomes in an embryo with tetraploidy

We report on the molecular investigations performed on an embryo with tetraploidy, karyotype 92,XXXY. The embryo was spontaneously aborted after eight weeks of gestation. Molecular analyses were performed in order to determine the parental origin and mode of formation of the two additional haploid sets of chromosomes. Microsatellite markers mapping to pericentromeric chromosome regions were used. Our results show a maternal origin of one additional set of chromosomes most likely due to the incorporation of the polar body of meiosis I and a paternal origin of the second additional set of chromosomes most likely due to dispermy. The karyotype 92,XXXY is rather unusual, indeed the vast majority of cases with tetraploidy have the karyotypes 92,XXXX or 92,XXYY. To the best of our knowledge this is the first case with 92,XXXY for which molecular investigations have been performed.

Meiotic origin of two ring chromosomes 18 in a girl with developmental delay

We report on the cytogenetic, fluorescence in situ hybridization (FISH), and molecular results obtained for a patient with a mild and nonspecific pattern of minor anomalies and developmental delay. In the proband's karyotype one chromosome 18 was replaced by a ring chromosome 18 in all metaphases, with deletion of the terminal regions. Furthermore, 56% of the metaphases contained a supernumerary small ring chromosome. Microdissection followed by FISH analysis demonstrated that the small ring chromosome consisted of material from the pericentromeric region of chromosome 18. The karyotype was defined as 46,XX,r(18)(p11.3q23)[88]/47,XX,r(18)(p11.3q23)+r(18)(p11.22q12.2)[112]. Thus, the patient has a deletion at 18pter and at 18qter, and a mosaic partial trisomy of the pericentromeric region of chromosome 18. We undertook molecular analysis using DNA samples of the patient and her parents in order to clarify the origin and possible mode of formation of the chromosome abnormalities. Our results show a paternal origin of the structurally normal chromosome 18 and a maternal origin for both ring chromosomes 18. Interestingly, the smaller ring chromosome did not arise postzygotically from the larger ring, since the two ring chromosomes contain genetic material derived from the two different maternal chromosomes 18. The abnormalities appear to have arisen during a meiotic division, and it could be speculated that both ring chromosomes 18 arose simultaneously due to complex pairing and recombination events. After fertilization, the small ring chromosome was lost in a subset of cells, thus leading to mosaicism.

An analytical method for the detection of methylation differences at specific chromosomal loci using primer extension and ion pair reverse phase HPLC

We have developed a rapid, accurate, and quantitative method for the detection of methylation differences at specific CpG sites based on bisulfite treatment of DNA followed by primer extension and ion-pair reversed-phase high performance liquid chromatography (IP RP HPLC). The application of the method is illustrated by analysis of differentially imprinted alleles arising from Prader-Willi and Angelman syndromes. In order to convert unmethylated cytosines to uracil, plasmid and genomic DNA samples were treated with sodium bisulfite and the targeted sequence was then amplified using oligodeoxynucleotide primers specific for the bisulfite-deaminated DNA. The PCR product(s) from this step was used as a template for a primer extension reaction and the products were subsequently analyzed chromatographically using IP RP HPLC. This method eliminates the need to use restriction enzymes to determine the methylation status of the amplicon and circumvents the need for radio labeling for the quantitative measurements. Finally, this method removes the need for nucleotide sequencing because it is not solely reliant on the presence or absence of one or more PCR products, as is the case with related methods.

Analysis of the methylation status of imprinted genes based on methylation-specific polymerase chain reaction combined with denaturing high-performance liquid chromatography

A procedure for the analysis of the methylation status of imprinted genes is described. The method offers a rapid and reliable alternative to conventional methods such as Southern blots and methylation-specific polymerase chain reaction (PCR) (i.e., allele-specific methylation-specific PCR). The efficient resolution of the differentially methylated alleles is demonstrated for three human imprinted genes: SNRPN, LIT1 (alias KCNQ1OT1), and H19. Abnormal imprinting of SNRPN is associated with the Angelman/Prader-Willi syndromes, and that of LIT1 and H19 with the Beckwith-Wiedemann syndrome. The method is based on methylation-specific PCR followed by denaturing high-performance liquid chromatography (MSP/DHPLC). Briefly, genomic DNA is initially subjected to an in vitro bisulfite treatment, whereby unmethylated cytosines are deaminated. Subsequent PCR amplifications, using primers specific for modified DNA, are aimed at DNA segments that show parent-of-origin-specific methylation. PCR conditions are chosen that allow an efficient amplification of both alleles. The PCR products representing the two alleles are identical in size; they differ, however, at a number of positions within the amplified DNA segment. The DHPLC analysis allows very efficient resolution of the two populations of PCR products, providing qualitative and quantitative results.

Maternal uniparental isodisomy 10 and mosaicism for an additional marker chromosome derived from the paternal chromosome 10 in a fetus

We report a case of maternal isodisomy 10 combined with mosaic partial trisomy 10 (p12.31-q11.1). Chromosome examinations from a CVS sample showed a karyotype 47,XX,+mar/46,XX [corrected]. The additional marker chromosome which was present in 6/25 interphase nuclei was shown by fluorescence in situ hybridization (FISH) to have been derived from a pericentromeric segment of chromosome 10. DNA analysis was performed from umbilical cord blood from the fetus after termination of the pregnancy at 18 weeks. The results showed that the two structurally normal chromosomes 10 were both of maternal origin, whereas the marker chromosome derived from the father. Autopsy of the fetus revealed hypoplasia of heart, liver, kidneys and suprarenal glands, but, apart from a right bifid ureter, no structural organ abnormalities. This fetus represents the second reported instance of a maternal uniparental disomy (UPD) 10.

Submicroscopic terminal deletions and duplications in retarded patients with unclassified malformation syndromes

Unbalanced submicroscopic subtelomeric chromosomal rearrangements represent a significant cause of unexplained moderate to severe mental retardation with and without phenotypic abnormalities. We investigated 254 patients (102 from Zürich, 152 from Liège) for unbalanced subtelomeric rearrangements by using fluorescence in situ hybridisation with probes mapping to 41 subtelomeric regions. Mental retardation combined with a pattern of dysmorphic features, with or without major malformations, and growth retardation and a normal karyotype by conventional G-banding were the criteria of inclusion. Selection criteria were more restrictive for the Zürich series in terms of clinical and cytogenetic pre-investigation. We found 13 unbalanced rearrangements and two further aberrations, which, following the investigation of other family members, had to be considered as variants without influence on the phenotype. The significant aberrations included three de novo deletions (two of 1pter, one of 5pter), three de novo duplications (8pter, 9pter, Xpter), one de novo deletion 13qter-duplication 4qter, and five familial submicroscopic translocations [(1q;18p), (2q;4p), (2p;7q), (3p;22q), (4q;10q), (12p;22q)], most of them with several unbalanced offspring with deletion-duplication. Although the incidence of abnormal results was higher (10/152) in the Liège versus the Zürich series (3/102), similar selection criteria in Zürich as in Liège would have resulted in an incidence of 7/106 and thus similar figures. In our series, submicroscopic unbalanced rearrangements explain the phenotype in 13/254 study probands. The most important selection criterion seems to be the presence of more than one affected member in a family. An examination of subtelomeric segments should be included in the diagnostic work-up of patients with unexplained mental retardation combined with physical abnormalities, when a careful conventional examination of banded chromosomes has yielded a normal result and a thorough clinical examination does not lead to another classification. The proportion of abnormal findings depends strongly on selection criteria: more stringent selection can eliminate some examinations but necessitates a high workload for experienced clinical geneticists. Once the costs and workload of screening are reduced, less selective approaches might finally be more cost-effective.

De novo unbalanced t(11q;21q) leading to a partial monosomy 21pter-q22.2 and 11q24-qter in a patient initially diagnosed as monosomy 21

We describe a patient in whom full monosomy 21 was initially assumed from routine GTG banded karyotyping. Re-examination with chromosome painting demonstrated an unbalanced translocation between the long arms of chromosomes 11 and 21. Fluorescence in situ hybridization (FISH) and microsatellite marker analysis revealed partial monosomy of chromosome 21 (pter-q22.2) and 11 (q24-qter). The patient was prematurely born in the 31st week of gestation and expired 3 days after delivery. She showed multiple minor anomalies, a complex cardio-vascular malformation, intestinal malrotation and cerebellar hypoplasia.

A novel MSP/DHPLC method for the investigation of the methylation status of imprinted genes enables the molecular detection of low cell mosaicisms

We describe a new procedure for the analysis of the methlyation status of imprinted genes based on methylation-specific PCR followed by denaturing high performance liquid chromatography (MSP/DHPLC). The method offers a rapid and very reliable alternative to conventional methods used for such purposes such as Southern blots and methylation specific PCR (allele-specific MSP). The efficient resolution of the differentially methylated alleles is demonstrated for two human imprinted genes, namely the SNRPN gene and the LIT1 gene (KCNQ1OT1). Abnormal imprinting of the two genes is associated with the Angelman/Prader-Willi syndromes and the Beckwith-Wiedemann syndrome, respectively. The MSP/DHPLC method is based on PCR amplification of gene segments which show parent-of-origin specific methylation. Genomic DNA is subjected to an in vitro bisulfite treatment prior to PCR amplifications using primers specific for modified DNA. Both alleles are theoretically amplified with equal efficiency and are represented by identically sized PCR products; they differ, however, at a number of positions within the amplified DNA segment. The DHPLC analysis allows a very efficient resolution of the two populations of PCR products. The high sensitivity and quantitative properties of the MSP/DHPLC method are illustrated based on its ability to reveal a low cell mosaicism in an infant with a maternal uniparental disomy 15 (i.e., Prader-Willi syndrome patient). The minor cell line (approximately 8% in blood) was not detectable with conventional molecular analysis. While the detection of low cell mosaicisms of structurally abnormal chromosomes usually relies on cytogenetic studies, the MSP/DHPLC method described here not only offers an alternative at the molecular level, but may also reveal mosaicisms concerning structurally intact chromosomes.

Velofacial hypoplasia (Sedlackova syndrome): a variant of velocardiofacial (Shprintzen) syndrome and part of the phenotypical spectrum of del 22q11.2

In 1955, a pattern of velar hypoplasia causing hypernasal speech and associated facial dysmorphism was observed in 26 children of Czech origin. Further cases with submucous cleft and/or cardiac anomalies were described. In 1978 velocardiofacial syndrome (VCFS) was reported, a condition very similar to velofacial hypoplasia (Sedlackova syndrome) apart from overt clefts instead of velar hypoplasia. In 1990 it was suggested that both syndromes might be variants of the same clinical entity. To test this hypothesis we performed fluorescence in situ hybridisation using the DiGeorge/VCFS region specific probe D22S75 on 20 patients originally classified as Sedlackova syndrome as well as molecular investigations for a subset of these patients. A 22q11.2 deletion was found in 16/20 patients. Thus, our results confirm the aforementioned hypothesis and expand the long list of clinical diagnoses associated with del 22q11.2.

CONCLUSION

Velofacial hypoplasia (Sedlackova syndrome) and velocardiofacial (Shprintzen) syndrome have a corresponding phenotype and are both associated with del 22q11.2.

Parental origin and mechanisms of formation of triploidy: a study of 25 cases

Triploidy is one of the most frequently observed chromosome abnormalities in spontaneous abortions in humans. The parental origin of the additional chromosome set is known to have a major impact on the phenotype of the foetuses and to result in differences in size and structure of the placenta. Early studies based on cytogenetic polymorphisms indicated a preponderant diandric origin of the triploidies; such detection method, however, is known to be prone to error. Other studies revealed a predominant digynic origin in cases with longer intrauterine survival. It is now thought that, to some extent, a detection bias in favour of cases with associated partial hydatidiform moles may account for the high incidences of diandric cases reported in some studies. Furthermore, depending on the gestational age of the cases analysed there may indeed be differences in the proportion of diandric and digynic triploidies. We investigated the parental origin and mechanisms of formation of triploidy in a group of 25 probands with gestational ages ranging from 8 to 37 weeks. DNA samples were extracted from foetal material and from blood samples of the parents, and were analysed using microsatellite markers. The parental origin of the triploidies was found to be maternal in 20 cases and paternal in 5. Regarding the digynic cases, an error at meiosis I was inferred in 10 cases, whereas in the other half an error occurred at meiosis II. All five diandric cases included in this study were found to be due to dispermy. No significant differences in the average maternal ages were found amongst the different subgroups of patients.

Method for in situ investigation of mitochondrial DNA deletions

A number of mitochondrial DNA (mtDNA) deletions have been recently identified in the tissues of patients with mitochondrial diseases and in elderly individuals. To investigate the distribution of mutant mitochondrial genomes within any particular tissue, we have developed a sensitive method based on indirect in situ PCR. Our experiments have shown that the new method had the advantage of selectively amplifying only mtDNA bearing the 4,977 bp deletion. We show that this method is more sensitive than in situ hybridization for detecting the 4977 bp mtDNA deletion while using only a low number of PCR cycles that minimize damage to tissue architecture. By using this method, we have demonstrated that the mutation does not occur uniformly among the cells of a given tissue/organ. This technique will be useful studying the distribution/localization of mtDNA mutations in individual cells of tissues and when combined with enzyme histochemical procedures in adjacent sections will enable the correlation between mtDNA mutations and bioenergy defects in single cells.

An autosomal dominant form of hereditary hypotrichosis simplex maps to 18p11.32-p11.23 in an Italian family

We report on a three-generation Italian family with dominant transmission of a form of hereditary hypotrichosis simplex (HHS). The nine affected adults presented with sparse, thin and short hair. Somewhat less sparse and longer hair was observed in the two affected young children in the third generation. Reduced hair growth affected the scalp and body, although normal eyelashes, eyebrows and growth of men's beards were observed. No associated abnormality was detected and the overall psychomotor development of the affected individuals was normal. A phenotypic variation was observed amongst the family members and is suggestive of a reduced penetrance of the trait or the effect of a modifying factor. After exclusion, in our family, of linkage to loci previously described in other forms of atrichia or hypotrichosis, we performed a genome-wide linkage analysis, which resulted in a positive lod score at 18p11.32-p11.23. We defined a critical region of about 35 cM flanked by markers D18S853 and D18S40. The highest two-point lod score was obtained with the microsatellite markers D18S1376, D18S53 and D18S453 (lod score of 3.31 at theta = 0.00). The 18p11.32-p11.23 locus represents the first chromosome region shown to be associated with hereditary hypotrichosis simplex.