SKY detection of chromosome rearrangements in two cases of tMDS with a complex karyotype.

In this study, we used spectral karyotyping (SKY) and fluorescence in situ hybridization (FISH) as complementary techniques for the analysis of two therapy-related secondary myelodysplastic syndrome (t-MDS) cases with complex karyotypes, previously analyzed by G-banding. Different types of SKY's cytogenetic contributions include confirmation of G-banding results, identification of partially characterized rearrangements, identification of marker chromosomes unidentified by G-banding, and detection of cryptic reciprocal translocations. In particular, the ability of SKY to clarify a number of markers led to the comprehension of clonal evolution. The common aberration found in these two t-MDS cases was the fragility of chromosome 5 and monosomy of chromosome 18. We clearly present that the use of SKY combined with conventional G-banding analysis and FISH has assisted in the identification of important chromosomal events that may play a key role in the development of t-MDS.

Replication status in leukocytes of treated and untreated patients with polycythemia vera and essential thrombocytosis.

The replication status of malignant cells is usually asynchronous. However, to date the pattern of replication has not been studied in myeloproliferative disorders nor has the effect of chemotherapy been systematically evaluated. Therefore, we used fluorescence in situ hybridization to interphase nuclei in PHA-stimulated peripheral blood lymphocytes to examine replication timing of three alleles associated with the malignant process. The study group comprised hydroxyurea treated and untreated patients with essential thrombocytosis (ET) or polycythemia vera (PV). A significantly higher rate of the asynchronous pattern of replication in both treated and untreated patients was found as compared to healthy controls. The highest rate of asynchronous replication was observed in untreated patients. Also, the frequency of the two doublets pattern was significantly higher in the untreated group compared to the treated patients and to the control groups. In conclusion, patients with PV and ET have a higher rate of asynchronous pattern of replication. A possible correlation between disease activity and the pattern of replication is suggested. The effect of hydroxyurea on the pattern of replication is variable.

Asynchronous replication of alleles in genomes carrying a microdeletion.

BACKGROUND: While most allelic pairs of DNA replicate synchronously during the S phase of the cell cycle, some genes normally replicate asynchronously, i.e., genes on the X chromosome and imprinted genes. The replication control mechanism is unknown but was shown to be impaired in malignancies and chromosomal trisomies where replication pattern becomes asynchronous. OBJECTIVES: To determine the level of asynchronization in replication timing of cells from patients with microdeleted genomes. METHODS: We applied monocolor fluorescent in situ hybridization with different probes on leukocytes from microdeleted genomes. RESULTS: All samples derived from the microdeleted genomes showed significantly higher levels of an asynchronized pattern compared to normal individuals. CONCLUSIONS: Even a "small" genetic imbalance (microdeletion) can interfere with gene replication and cell cycle progression, as previously shown in full trisomies.

Molecular cytogenetic characteristics of Down syndrome newborns.

Down syndrome (DS) is a multifactorial disorder with a high predisposition to leukemia and other malignancies. A change in the replication pattern from synchronous in normal genes to asynchronous in DS amniocytes has previously been reported. The objective of this study was to evaluate additional molecular cytogenetic factors which could re-emphasize the high correlation between DS cells and genetic instability. We found a higher rate of random aneuploidy in chromosomes 9 and 18 and a higher rate of asynchronous replication in the subtelomeric region or DS leukocytes than in cells from normal newborns. In addition, the telomere capture phenomenon was observed in the DS leukocytes but not in normal controls. The molecular cytogenetic factors observed in the DS individuals are known to correlate with genomic instability and with predisposition to cancer.

Asynchronous replication of biallelically expressed loci: a new phenomenon in Turner syndrome.

PURPOSE: Transcriptional activity of genes is related to their replication timing; alleles showing the common biallelic mode of expression replicate synchronously, whereas those with a monoallelic mode of expression replicate asynchronously. Here the level of synchronization in replication timing of alleles was determined in subjects with Turner syndrome. METHODS: Fluorescence in situ hybridization was used for three loci not linked to X chromosome, in lymphocytes derived from 12 controls, 3 individuals with Turner, and 4 with mosaic Turner syndrome. RESULTS: In cells derived from controls, each pair of alleles replicated synchronously; yet these same alleles replicated asynchronously in cells monosomic for X chromosome derived from Turner and mosaic Turner patients. When the level of 45,X was low in the mosaic samples, the replication pattern of the 46,XX cells was normal. However, in samples with a high level of mosaicism, a significantly increased asynchronous replication was detected in the 46,XX cells. CONCLUSION: An altered temporal replication control in Turner syndrome affecting the aneuploid and euploid cells is shown. This alteration may potentially be involved in the determination of the syndrome.