Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026986 (myelodysplastic syndrome)
14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report amplification of the MLL gene region (11q23-->11qter) in a 72-year-old woman with myelodysplastic syndrome progressing to acute myelomonocytic leukemia and in a 51-year-old man with a history of hairy cell leukemia and secondary myelodysplasia progressing to acute myelogenous leukemia. The amplicons containing MLL were shown by molecular cytogenetics to extend from chromosomal region 11q23 to the distal long arm of chromosome 11 and to be present in the first patient in five copies on a large ring chromosome and present in the second patient also in five copies on two derived chromosomes. Other karyotypic findings in the first patient included del(5q), +8, and der(21)t(17;21), resulting in the loss of a copy of 17p, whereas deletion 7q was observed in the second patient. Southern-blot analysis for the second patient was consistent with MLL amplification but did not demonstrate rearrangement of the germ-line MLL band. Amplification of MLL and the 11q23 region has been documented in only a few cases and appears to be yet another mechanism by which MLL contributes to the leukemia phenotype.
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PMID:Amplification of the MLL region in acute myeloid leukemia. 1106 8

In the genesis of hematologic neoplasms gene amplification is a mechanism for illegitimate activation of proto-oncogenes. We report a phenotypically normal patient with a constitutional ring chromosome 21 who developed acute myeloid leukemia (AML). The leukemic cells revealed size-variable ring chromosomes 21 with amplification of the proto-oncogene AML1, located in the chromosomal band 21q22, within the rings. Hitherto, amplification of the proto-oncogene AML1-also in form of a ring chromosome-has been described recently only in one patient with myelodysplastic syndrome (MDS). In AML, gene amplification by ring formation has been demonstrated only in another three patients (amplification of the MLL gene in two cases and of the ETV6 gene in one case). Here we present the new evidence that the internal rearrangement of a constitutional ring chromosome 21 resulted in multiplication of a proto-oncogene in bone marrow cells and provided obviously a selective growth advantage. Moreover the amplification of ribosomal DNA was observed in the ring chromosomes of the tumor cells.
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PMID:Amplification of the AML1(CBFA2) gene on ring chromosomes in a patient with acute myeloid leukemia and a constitutional ring chromosome 21. 1116 21

The use of all trans-retinoic acid and combination chemotherapy has made acute promyelocytic leukemia (APL) a potentially curable leukemia. Late sequelae of the treatment of APL have therefore become an important consideration in the overall treatment strategy. We report a patient with APL who achieved complete clinical and molecular remission after treatment with the topoisomerase II inhibitors daunorubicin, mitoxantrone, etoposide, and the anti-metabolite cytosine arabinoside. Seven years later, she developed therapy-related myelodysplastic syndrome (t-MDS) without any evidence of relapse of the APL clone. Karyotypic and molecular cytogenetic analysis showed complex cytogenetic aberrations, including deletion of the long arm of chromosome 5, monosomy 7, but without rearrangement of the MLL gene/11q23. Interestingly, this case would be classified clinically as "epipodophyllotoxin related MDS," but pathologically as "alkylating-agent related MDS" according to the recently proposed World Health Organization (WHO) classification system for MDS. This case of t-MDS in an APL patient in durable remission highlights the importance of avoiding long-term treatment related toxicities, as APL is a potentially curable leukemia.
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PMID:Therapy-related myelodysplastic syndrome after eradication of acute promyelocytic leukemia: cytogenetic and molecular features. 1117 6

Gene amplification is a rare phenomenon in acute leukemia, but recently amplification of specific chromosome bands containing genes rearranged in leukemia-specific balanced chromosome translocations has been reported in a few cases. We detected duplication or amplification of chromosome band 11q23 with 3-7 copies of the MLL gene by fluorescence in situ hybridization in 12 out of 70 unselected patients with therapy-related myelodysplasia or acute myeloid leukemia (17%). In all but one case, the supernumerary copies of MLL were located to previously unidentified marker chromosomes or unbalanced translocations. In 4 of the 12 patients, 2-6 copies were located together on the same chromosome arm representing amplification, 7 patients had single, extra duplicated copies of MLL, whereas both amplification and duplication were observed in the same cell in 1 patient. Comparative genomic hybridization demonstrated gain of varying, often large parts of 11q in five patients. The MLL gene was shown to be unrearranged in all 12 patients. Seven out of eight patients with duplication or amplification of MLL had mutations of TP53. Patients with supernumerary copies of MLL were in general older (P = 0.007) and had a shorter survival (P < 0.001) compared to other patients. Duplication or amplification of MLL was significantly associated with a complex karyotype (P = 0.002), with deletion or loss of 5q (P = 0.001), and with prior therapy with alkylating agents. These results support the existence of a specific genetic pathway in t-MDS and t-AML with many previously unidentified chromosome aberrations demonstrated to represent extra copies of parts of 11q, including the unrearranged MLL gene.
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PMID:Duplication or amplification of chromosome band 11q23, including the unrearranged MLL gene, is a recurrent abnormality in therapy-related MDS and AML, and is closely related to mutation of the TP53 gene and to previous therapy with alkylating agents. 1128 33

The translocation t(11;16)(q23;p13) has only been documented in patients with acute leukemia or myelodysplasia secondary to therapy with drugs targeting DNA topoisomerase II. We have established a myeloid cell line (SN-1) with the MLL-CBP fusion gene from an acute leukemia patient with t(11;16)(q23;p13). Although SN-1 cells were not induced to differentiate by all-trans retinoic acid (ATRA) and 1alpha,25-dihydroxyvitamin D(3) (VD3), retinoid X receptor (RXR) agonists, such as 9-cis retinoic acid and Ro48-2250, effectively induced differentiation of the cells. Downregulation of the expression of the MLL-CBP fusion gene occurred during the differentiation of SN-1 cells. When SN-1 cells were treated with MLL-CBP antisense oligonucleotide, the cells were induced to differentiate by ATRA or VD3, suggesting that the MLL-CBP fusion gene dominant-negatively suppresses ATRA- or VD3-induced differentiation. Moreover, suboptimal concentrations of sodium butyrate, a histone deacetylase inhibitor, had a cooperative effect with ATRA or VD3 in inducing the differentiation of SN-1 cells. The downregulation of the expression of MLL-CBP mRNA was accompanied by the induction of differentiation. These findings suggest that RXR agonists or a clinically applicable combination of ATRA and butyrate derivatives might be useful for differentiation therapy in leukemia patients with the MLL-CBP fusion gene.
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PMID:Downregulation of MLL-CBP fusion gene expression is associated with differentiation of SN-1 cells with t(11;16)(q23;p13). 1131 67

Tandem duplication (TD) of the MLL or FLT3 gene in acute myeloid leukemia (AML) has been reported. We examined whether TD of these two genes occurs simultaneously. We analyzed 13 AML and 2 myelodysplastic syndrome patients, including 6 adult patients with trisomy 11 and 9 pediatric patients with TD of the FLT3 gene, using RT-PCR followed by sequencing. Among these, TD of the MLL and FLT3 genes was found in 5 and 10 patients, respectively. Notably, TD of both the MLL and FLT3 genes (coduplication) was detected in two AML patients, who died 6 and 14 months after diagnosis. TD of these two genes in AML is rare; thus, coduplication of these genes in the same patient is predicted to be very rare. Although the mechanisms of TD of both genes are different, development of TD of both genes may be related to an unknown similar etiology in leukemia because the frequency of coduplication of these genes in a single patient is considered to be very low. Further studies of the coduplication of these genes in AML patients may lead to the clarification of its mechanism and clinical implications.
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PMID:Coduplication of the MLL and FLT3 genes in patients with acute myeloid leukemia. 1131 6

In acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS) there are frequently complex karyotypes with multiple structurally altered chromosomes, many of which are marker chromosomes of unknown origin. The aim of this study was to apply comparative genomic hybridization (CGH) to cases of AML or MDS in transformation submitted for routine cytogenetic analysis to investigate whether this approach would yield any further information and, if possible, to predict which cases would benefit from CGH analysis. Nineteen cases with AML or MDS in transformation were analyzed. CGH revealed nine cases with gains or losses of chromosomal material. In six of these cases the chromosomal location of this material was not apparent from cytogenetic analysis especially when multiple markers were present. By using fluorescence in situ hybridization (FISH) with specific libraries for the chromosome regions that showed discordance between CGH and conventional cytogenetics, we were able to identify the chromosome location of material within the karyotype. In this group of six patients, four cases of an unbalanced translocation involving regions of chromosomes 5 and 17 were characterized. Three of these cases had additional abnormalities, including two cases with regions of amplification in which oncogenes are located (MYC, MLL) and one case with a dic(7;21)(p10;p10). In all six cases it was possible to characterize complex chromosomal aberrations such as derivative chromosomes, marker chromosomes, and ring chromosomes. This study demonstrates that CGH can detect true gain and loss of critical chromosome regions more accurately than conventional karyotyping in cases with very complex karyotypes, and can thus prove useful in predicting prognosis and pinpointing areas of the genome that require further study. Also, CGH can be a useful technique to identify the origin of marker chromosomes, and it can assist in choice of probes for confirmatory FISH, when there is no clue provided from the analysis of G-banded chromosomes.
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PMID:The application of comparative genomic hybridization as an additional tool in the chromosome analysis of acute myeloid leukemia and myelodysplastic syndromes. 1134 75

A highly increased risk of myelodysplasia (MDS) and acute myeloid leukaemia (AML) is well established in patients previously treated for other malignancies with alkylating agents or topoisomerase II inhibitors. More recently, single cases of acute lymphoblastic leukaemia (ALL), often presenting balanced translocations involving chromosome band 11q23, have been observed. We present two such cases with t(4;11)(q21;q23), one of whom had previously received only single-agent chemotherapy with 4-epi-doxorubicin. A review of the literature since 1992 including these two patients reveals a total of 23 cases of ALL or lymphoblastic lymphoma after chemotherapy presenting balanced translocations to 11q23. All 23 patients had previously received at least one topoisomerase II inhibitor, and in two patients 4-epi-doxorubicin had been administered as single-agent chemotherapy for breast cancer. The latency period to development of t-ALL was 24 months or less in 20 out of 22 cases. The MLL gene was found to be rearranged in 14 out of 14 cases, and in three out of six cases the breakpoint was at the telomeric part of the gene, as observed in most cases of AML following therapy with topoisomerase II inhibitors. These results indicate that patients with ALL and balanced translocations to chromosome band 11q23 following chemotherapy with topoisomerase II inhibitors in the future should be included with cases of MDS or AML in calculations of risk of leukaemia.
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PMID:Therapy-related acute lymphoblastic leukaemia with MLL rearrangements following DNA topoisomerase II inhibitors, an increasing problem: report on two new cases and review of the literature since 1992. 1155 77

Trisomy 11 is considered to be a rare cytogenetic abnormality in myelodysplastic syndromes (MDS) and acute myelogenous leukemia (AML). Duplication of the MLL gene (localized to 11q23) has been found on one chromosome 11 in patients with trisomy 11, detected by DNA techniques. We investigated copy number of MLL in seven patients with trisomy 11 to see if duplication could be assessed by the detection of two separate signals on fluorescence in situ hybridization (FISH). If so, FISH could provide a quick easy screen of MLL status in routine referrals. The diagnostic bone marrow aspirate showed trisomy 11 in five adult patients with MDS/AML as part of a complex karyotype and in two children with acute lymphoblastic leukemia (ALL) as part of a hyperdiploid karyotype. Fluorescence in situ hybridization utilized the suspensions remaining after the cytogenetic harvest. Two FISH probes were used on the adult patients (MLL - Oncor and Vysis), and one (Vysis) for the two children with ALL. Analysis showed that the proximity of the two putative hybridization signals made it very difficult to unambiguously see two separate signals. The hybridisations (Oncor probe) were convincing of MLL duplication (namely two distinct signals) in only one patient, but this was not borne out with the other MLL probe (Vysis). We conclude that conventional FISH with MLL probe is not suited to act as a screen for MLL duplication in patients with trisomy 11.
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PMID:Routine fluorescence in situ hybridization with the MLL probe does not reliably detect two separate signals on one chromosome 11 in patients with trisomy 11. 1156 51

A 66-year-old man with a myelodysplastic syndrome transforming to acute myeloid leukemia showed a complex abnormal karyotype on bone marrow aspirate. An unbalanced dicentric translocation with a very long der(11) long arm-dic(11;19)(q25;p13.4)-was present. Fluorescence in situ hybridization studies utilised paints for chromosomes 11 and 19 as well as the locus specific probe MLL, localised to 11q23. The abnormal chromosome 11q contained 6 copies of intact MLL and 6 copies of chromosome 19 (unidentified) sequences. To our knowledge, gene co-amplification of chromosomes 11 and 19 sequences has not been reported before.
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PMID:Abnormal dicentric chromosome with co-amplification of sequences from chromosomes 11 and 19: a novel rearrangement in a patient with myelodysplastic syndrome transforming to acute myeloid leukemia. 1167 70


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