UMLS:C0026986 - FACTA Search

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Query: UMLS:C0026986 (myelodysplastic syndrome)
14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The E2F transcription factor plays an important regulatory role in cell proliferation, mediating the expression of genes whose products are essential for inducing resting cells to enter the cell cycle and synthesize DNA. To investigate the possible involvement of E2F in hematopoietic malignancies, we isolated genomic clones encompassing the human E2F1 gene. We then used fluorescence in situ hybridization to localize E2F1 to human chromosome 20q11, telomeric to the p107 locus, a gene whose product is related to the retinoblastoma gene product (pRb). This finding contrasts with the 1p36 and 6q22 chromosomal locations previously assigned E2F2 and E2F3, two additional members of the E2F family. Although deletions or structural rearrangements of E2F1 were not detected in 14 primary acute leukemia or myelodysplasia samples with structural abnormalities of chromosome 20q11, the gene was amplified and overexpressed in HEL erythroleukemia cells and translocated to other chromosomes in several established human leukemia cell lines. This study provides the first evidence of gene amplification involving a member of the E2F family of transcription factors. We propose that E2F1 overexpression in erythroid progenitors may stimulate abnormal cell proliferation by overriding negative regulatory signals mediated by tumor suppressor proteins such as pRb.
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PMID:Amplification of the E2F1 transcription factor gene in the HEL erythroleukemia cell line. 777 10

The der(16)t(1;16)(q11;q11) is a frequent recurrent rearrangement in solid tumours such as breast carcinomas and Ewings sarcomas. Recently, this abnormality was described also in multiple myeloma. We identified a der(16)t(1;16)(q11;q11) in three patients with myelodysplastic syndrome, either during preleukaemic phase (n = 2) or at the time of blastic transformation (n = 1). Breakpoints were ascertained by fluorescence in situ hybridization (FISH) using specific centromeric alpha-satellite probes and whole chromosome painting for chromosome 1 and chromosome 16. These observations, combined with isolated cases of the literature, suggest that der(16)t(1;16)(q11; q11) is a nonrandom abnormality associated with myelodysplastic syndromes.
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PMID:Der(16)t(1;16)(q11;q11) in myelodysplastic syndromes: a new non-random abnormality characterized by cytogenic and fluorescence in situ hybridization studies. 778 73

Acquired deletions of the long arm of chromosome 20 are found in several hematologic conditions and particularly in the myeloproliferative disorders and myelodysplastic syndromes. The spectrum of diseases associated with 20q deletions suggests that such deletions may mark the site of a tumor suppressor gene that contributes to the regulation of normal multipotent hematopoietic progenitors. We present here the first detailed molecular analysis of 20q deletions associated with myeloid disorders. Thirty-four microsatellite primer pairs corresponding to loci on 20q have been used to study DNA samples from two cell lines and from highly purified peripheral blood granulocytes obtained from seven patients. In addition, Southern analysis of cell line DNA has been performed using 19 DNA probes that map to 20q. Three conclusions can be drawn from our results. Firstly, molecular heterogeneity of both centromeric and telomeric breakpoints was demonstrated, thus supporting the existence of a tumor suppressor gene on 20q. In addition many of the breakpoints have been mapped to small genetic intervals. Secondly, our results define a commonly deleted region of 16-21 cM which contains ADA, PLC1, TOP1, SEMG1, and PPGB. Several candidate tumor suppressor genes lie outside the common deleted region including SRC, HCK, p107, PTPN1, and CEBP beta. Thirdly, the data allow integration of genetic and physical maps and have refined the map positions of multiple genes. These results will facilitate attempts to identify candidate hematopoietic tumor suppressor genes on 20q.
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PMID:Molecular analysis of chromosome 20q deletions associated with myeloproliferative disorders and myelodysplastic syndromes. 794 81

Trisomy 8 is the most common hyperdiploid numerical chromosomal abnormality that is found in myelodysplastic syndromes (MDSs). We explored the utility of combining fluorescence in situ hybridization interphase cytogenetics with routine morphologic analysis to characterize cases for which signs and symptoms were suggestive of MDS in which dysplastic changes were insufficient for a definitive diagnosis. Hybridization with a chromosome 8-specific centromeric probe was performed on bone marrow smears that were obtained from four patients with cytogenetically documented trisomy 8 and hematopoietic cell atypia that was suggestive but not diagnostic of MDS. Signals that corresponded to trisomy 8 were detected in 14.6% to 32.2% of the cells (detection threshold of trisomic clone, 5.0%). The conditions of two patients have remained hematologically stable with no disease progression, and these two patients are now considered to have refractory anemia. The conditions of the other two patients rapidly progressed to morphologically recognizable MDSs. This study demonstrates that the detection of trisomy 8 by fluorescence in situ hybridization can provide useful supplemental information in bone marrow specimens with morphologic changes that are suggestive of but not sufficient for a diagnosis of MDS. It should prove to be useful when standard cytogenetic analysis has not been performed or when it is not readily available.
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PMID:Detection of trisomy 8 by fluorescence in situ hybridization on bone marrow smears from patients with subtle myelodysplastic changes. 797 13

Two genes have been implicated in leukemias of patients with abnormalities of chromosome 3, band q26: EVI1, which can be activated over long distances by chromosomal rearrangements involving 3q26, and EAP, a ribosomal gene that fuses with AML1 in a therapy-related myelodysplasia patient with a t(3;21)(q26.2;q22). AML1 was identified by its involvement in the t(8;21)(q22;q22) of acute myeloid leukemia. Here we report the consistent identification of fusion transcripts between AML1 and EAP or between AML1 and previously unidentified sequences that we named MDS1 (MDS-associated sequences) in the leukemic cells of four patients with therapy-related myelodysplasia/acute myeloid leukemia and in one patient with chronic myelogenous leukemia in blast crisis, all of whom had a t(3;21). In addition, we have identified a third chimeric transcript, AML1/EVI1, in one of the therapy-related acute myeloid leukemia patients. Pulsed-field gel electrophoresis established the order of the genes as EAP, the most telomeric, and EVI1, the most centromeric, gene. The results indicate that translocations could involve multiple genes and affect gene expression over long distances.
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PMID:Consistent intergenic splicing and production of multiple transcripts between AML1 at 21q22 and unrelated genes at 3q26 in (3;21)(q26;q22) translocations. 817 Oct 26

Interstitial loss of the long arm of chromosome 5 (5q-) is an anomaly frequently seen in myelodysplasia (MDS) and acute myelogenous leukemia (AML). Although the limits of the interstitial deletions vary among patients, there is a critical region of overlap at 5q31 that is consistently deleted in most cases. The order of genes in the critical 5q31 region is centromere, interleukin gene cluster, an anonymous polymorphic locus D5S89, early growth response factor, CSF1 receptor, telomere. Fluorescence in situ hybridization of specific 5q31 probes to metaphases with del(5) (q11q31) from a patient with secondary refractory anemia with excess blasts in transformation demonstrates that the interstitial deletion is not contiguous. The 5q- chromosome has lost the D5S89 and CSF1R loci while retaining some of the sequences in between. A probe derived from a 300-kbp yeast artificial chromosome containing the D5S89 locus is interrupted on the normal chromosome 5 of this patient. Data presented in this report are consistent with (i) presence of a critical gene within the YAC and (ii) more than a single interstitial break within the 5q- chromosome. These results, while pinpointing one of the critical 5q31 loci, also provide evidence for a second telomeric locus.
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PMID:5q- chromosome. Evidence for complex interstitial breaks in a case of refractory anemia with excess blasts. 819 54

We performed conventional cytogenetic (CC) and interphase fluorescence in situ hybridization (FISH) analysis with an alpha satellite chromosome 7 specific DNA centromeric probe (p alpha 7t1) on bone marrow material prepared for CC in 11 controls and 80 cases of myelodysplastic syndromes (MDS). In controls, a mean of 4.3 +/- 1% of the 700 cells examined showed only one FISH signal for chromosome 7, and the finding of > 6.3% (mean +2 standard deviations) of cells with one FISH signal was considered to indicate the presence of a clone with -7. By CC, clonal -7 was found in 11 patients, whereas two patients had -7 in only one mitose (non-clonal -7). In eight of the 11 cases of clonal -7 by CC, interphase FISH confirmed -7. In the remaining three patients, 5.1%, 6.3% and 18.4% respectively of the cells had one signal. Those three patients had, in addition to -7 by CC, a marker chromosome which was shown to be constituted of chromosome 7 pericentromeric material by FISH analysis on metaphase spreads (metaphase FISH). Of the two patients with non-clonal -7 by CC, one had a -7 clone by interphase FISH whereas the other patient had normal FISH results. Five of the 67 patients with no -7 mitose by CC had clonal -7 by interphase FISH, with one chromosome 7 signal in 14.4 to 39% of the cells examined. At least three mitoses with -7 were found in two of them by metaphase FISH. Three of the five patients were reexamined 12 to 17 months later: CC and metaphase FISH found no -7, whereas interphase FISH still showed a -7 clone. Three of the patients with clonal -7 by CC and by FISH were reexamined in complete hematological remission after intensive therapy. CC found no -7 and interphase FISH was normal in all three patients. Our findings suggest that interphase FISH may improve the detection of -7 in MDS. Conventional cytogenetics should still be performed in parallel to FISH, however, because of possible false negative FISH results when a pericentromeric chromosome 7 marker is present in patients with -7. Larger numbers of cases with minor -7 clones, detectable by FISH only, and longer follow-up in those cases will be necessary to determine the significance of this finding, the evolution of this minor clone, and the outcome of the patients.
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PMID:Fluorescence in situ hybridization improves the detection of monosomy 7 in myelodysplastic syndromes. 820 74

A simplified technique for fluorescent in situ hybridization (FISH) was used to investigate the prevalence of chromosomally abnormal clones in 13 cases of myelodysplastic syndrome (MDS). Biotinylated centromeric probes for chromosomes 7, 8, 12 and X, as well as painting probes for chromosomes 7 and 11, were applied to air-dried bone marrow smears stored from 6 to 23 months. Nine of the cases had been previously karyotyped, and five of these demonstrated normal karyotypes which were confirmed by FISH. The remaining four cases showed different chromosome changes. One case of sideroblastic anemia with chronic lymphocytic leukemia showed minor clones with either monosomy 12 (12% of cells) or tetraploidy (15% of cells) by FISH, whereas metaphase cytogenetics had demonstrated trisomy 12 in 20% of cells, with no evidence of tetraploidy. Another case which had been previously karyotyped was found to have a t(7;11) in 90% of cells while only 10% of cells were shown by FISH to contain this translocation. Monosomy 7 was demonstrated by FISH in a case of refractory anemia (RA), while trisomy 8 was found in a case of RA with excess blasts in transformation (RAEB-T), and in both of these cases the aneuploid clone was present in eosinophils as well as in erythroid and granulocytic precursors but not in lymphocytes or histiocytes, thereby demonstrating the value of FISH for identifying the affected cell lineage.
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PMID:Quantifying chromosome changes and lineage involvement in myelodysplastic syndrome (MDS) using fluorescent in situ hybridization (FISH). 828 3

Monosomy 7 (-7) is one of the most common chromosomal abnormalities found in the leukemic cells of patients with acute myelogenous leukemia (AML) and myelodysplastic syndrome (MDS). Because patients with -7 have a poor prognosis, their identification is important for treatment planning. Conventionally, -7 is detected by the G-banding technique. This study examines the use of fluorescent in situ hybridization (FISH) methodology to detect -7 cells in interphase nuclei and metaphase chromosomes. Fifteen AML or MDS patients whose leukemic cells were found to have -7 by G-banding at disease presentation were studied. In 13 of these patients, -7 could be detected in interphase by FISH using a chromosome 7-specific centromeric DNA probe. The two patients whose leukemic cells were not detectable by interphase FISH had -7 and t(1q;7p), which were detectable by FISH in metaphase using a chromosome 7-specific painting probe. Metaphase FISH was particularly useful in further defining chromosome 7 defects in cells that contained aberrant or marker chromosomes. For example, in 6 patients, chromosome 7 sequences were detectable in aberrant or marker chromosomes by metaphase FISH, but not by G-banding. These results suggest that metaphase FISH is an important adjunct to conventional cytogenetic methods for defining chromosome 7 abnormalities in AML and MDS patients. Furthermore, interphase FISH is useful for follow-up studies in patients who are found informative for the FISH study at presentation.
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PMID:Comparison between interphase and metaphase cytogenetics in detecting chromosome 7 defects in hematological neoplasias. 835 37

One of the most frequent cytogenetic abnormalities in human leukemia and myelodysplasia is an interstitial deletion within chromosome 5q. A tumor suppressor gene has been hypothesized to lie in 5q31, the smallest commonly deleted region. IRF-1, a gene whose product manifests anti-oncogenic activity, was mapped to 5q31.1. IRF-1 lies between IL-5 and CDC25C and is centromeric to IL-3 and GM-CSF. Among these genes, only IRF-1 was consistently deleted at one or both alleles in 13 cases of leukemia or myelodysplasia with aberrations of 5q31. Inactivating rearrangements of one IRF-1 allele, accompanied by deletion of the second allele, were also identified in one case of acute leukemia. Thus, IRF-1 may be a critically deleted gene in human leukemia and myelodysplasia.
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PMID:Deletion of IRF-1, mapping to chromosome 5q31.1, in human leukemia and preleukemic myelodysplasia. 843 56

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