UMLS:C0023467 - FACTA Search

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Query: UMLS:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 19-year-old male patient with virus associated hemophagocytic syndrome (VAHS) began receiving chemotherapy including etoposide (cumulative dose of 900 mg/m2 intravenously) and Ara-C (cumulative dose of 360 mg/m2 intravenously) in July 1994. He achieved complete remission, but developed acute myelomonocytic leukemia (AML, FAB M4) with t(9;11)(p22;q23) in March 1997 and a rearrangement of the MLL gene was also recognized. The MLL gene rearrangement is closely associated with secondary leukemia with an 11q23 translocation. It is highly likely that this case of AML was caused by the cytostatic treatment the patient received, including etoposide for VAHS.
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PMID:Therapy-related AML after successful chemotherapy with low dose etoposide for virus-associated hemophagocytic syndrome. 984 19

We describe a patient with acute myeloblastic leukemia (AML-M0) whose cells had a t(2;11)(p21;q23). Fluorescence in situ hybridization analysis with a probe for MLL showed that it was split, hybridizing to both the derivative 2 and 11 chromosomes. Nineteen other patients with 2p;11q translocations have been described; breakpoints in 14 of these are the same as in the case we describe. The phenotype of these patients is quite variable, with 14 patients having myelodysplastic syndrome which evolved to AML in six. Four patients had AML and two had acute lymphoblastic leukemia. MLL status has been studied in two other patients; one had MLL rearranged and one did not.
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PMID:MLL is involved in a t(2;11)(p21;q23) in a patient with acute myeloblastic leukemia. 988 82

This report describes a unique case of acute myeloid leukemia with hypergranular cytoplasm and t(X;11)(q24;q23). The breakpoint on 11q23 was identified within the MLL gene. The hypergranular cytoplasm of leukemic cells and the associated coagulopathy resembled a characteristic of acute promyelocytic leukemia, despite the absence of RARalpha gene rearrangement in this case. The Xq24 site possibly played a role in this atypical blast phenotype.
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PMID:Acute myeloid leukemia with hypergranular cytoplasm accompanied by t(X;11)(q24;q23) and rearrangement of the MLL gene. 993 40

We describe two cases of acute myeloblastic leukemia, classified as M4 and M5 in the French-American-British nomenclature, with an 11q23 rearrangement at karyotypic analysis. The involvement of the MLL gene with two new partner loci on chromosome 10q22 and 8q24, respectively, was demonstrated by fluorescence in situ hybridization using a YAC clone B22B2L.
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PMID:Involvement of MLL gene in a t(10;11)(q22;q23) and a t(8;11)(q24;q23) identified by fluorescence in situ hybridization. 997 24

A 42-year-old woman had been given a diagnosis of malignant lymphoma, follicular, small cleaved cell. She had undergone chemotherapy including etoposide (1,500 mg/total) and was in her second complete remission. Four years and 4 months later, refractory anemia with excess of blasts (RAEB) with dup(11) (q21q23) x 2 developed in the patient and progressed to acute myeloid leukemia (AML-M5b). Despite regression of the AML to RAEB, a clone with the additional abnormality of del(20) (q11q13.1) appeared and transformed the RAEB into AML-M6. Rearrangement of the MLL gene was observed, and FISH analysis demonstrated that the signal sequences from the gene's 5' and 3'-terminal regions had detached. RT-PCR techniques detected a tandem duplication of MLL gene exons 2 through 8. This was considered to be one of the mechanisms behind the formation of the 11q23 abnormality observed in this patient.
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PMID:[Therapy-related MDS/leukemia carrying dup(11) (q21q23) with MLL gene tandem duplication]. 1002 48

myeloid leukemia of acute myeloid leukemia (AML) M5a showing a jumping translocation with a breakpoint at 11q23. Fluorescence in situ hybridization (FISH) demonstrated triplication of the MLL gene and the presence of interstitial telomeric sequences, supporting the role of repetitive sequences in the mechanism of jumping translocations. Southern blot analysis of the MLL breakpoint cluster region showed the presence of an MLL gene rearrangement. Jumping translocation with MLL gene rearrangement is a previously unreported phenomenon in leukemia cytogenetics.
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PMID:Jumping translocation at 11q23 with MLL gene rearrangement and interstitial telomeric sequences. 1009 26

Chromosomal abnormalities involving the 11p15 or 11q22-23 bands have been reported in several types of human neoplasms including hematopoietic malignancies. The abnormalities are observed in therapy-related malignancies and less frequently in de novo myeloid malignancies. Abnormality of the MLL gene located on chromosome 11q23 has been well known in therapy-related myeloid malignancies, but it has been reported only recently that the inv(11)(p15q22) in de novo or therapy-related myeloid malignancies results in the fusion of NUP98 on chromosome 11p15 and DDX10 on chromosome 11q22. NUP98 is a nucleoporin that composes the nuclear pore complex and is the target gene in leukemia with the t(7;11)(p15;p15). The DDX10 gene encodes a putative adenosine triphosphate-dependent DEAD box RNA helicase. Here we present another patient with acute myelocytic leukemia (M4) transformed from chronic myelomonocytic leukemia with the inv(11) chromosome who had been treated with etoposide for a germ cell tumor. By reverse transcription polymerase chain reaction (RT-PCR) of the RNA from the leukemic cells of the patient, DDX10-NUP98 and NUP98-DDX10 fusion transcripts were detected. Our case confirms that the inv(11) is a rare chromosomal translocation that is associated with therapy-related or de novo myeloid malignancy and involves NUP98 and DDX10 but not MLL. RT-PCR of the fusion transcripts might be applied to the detection of a small number of leukemic cells in the bone marrow or blood of patients in remission or in the cells harvested for autologous transplantation.
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PMID:The inv(11)(p15q22) chromosome translocation of therapy-related myelodysplasia with NUP98-DDX10 and DDX10-NUP98 fusion transcripts. 1022 53

The c-kit proto-oncogene encodes a 145 kd tyrosine kinase transmembrane receptor, which plays a key role in haemopoiesis. The c-kit has been classified as CD117 and is especially useful in the differential diagnosis of acute myelogenous leukemia (AML) and acute lymphoblastic leukemia (ALL). We analysed 104 consecutive cases (55 AML, 23 B-cell lineage ALL, three T-cell ALL, 11 blast crisis of chronic myeloproliferative disorders and 12 cases of myelodysplastic syndromes with more than 10% of blasts) referred to our Hospital for immunophenotypic diagnosis and compared the expression pattern of CD13, CD33 and CD117 using the same fluorochrome (phycoerythrin-PE). The recommendations of the EGIL group were followed in order to establish lineage involvement of the blastic population. The threshold used to assign positivity for CD117 was 10%. Bcr/abl, TEL/AML-1 and MLL rearrangements were assessed by molecular methods. CD117 expression was detected in 91% of AML and MDS. All the negative cases corresponded to acute monocytic leukemias. The calculated specificity for myeloid involvement was 0.86 for CD117, 0.36 for CD13 and 0.44 for CD33 (P < 0.005). CD117 was also positive in four cases of ALL. None of these cases showed bcr/abl or MLL rearrangements. In the light of these findings, CD117 expression should yield a higher score, at least one point, in the system currently applied for the diagnosis of biphenotypic acute leukemias (BAL) as its myeloid specificity is greater than that of CD13 and CD33. Moreover, its absence in AML could identify two subgroups of M5b cases. The coexpression of CD117 with cytoplasmic CD79a is often associated with CD7 reactivity, suggesting a stem cell disorder. CD117 should be included on a routine basis for the immunophenotypic diagnosis of acute leukemias.
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PMID:Enhanced myeloid specificity of CD117 compared with CD13 and CD33. 1022 19

MLL (ALL1, Htrx, HRX), which is located on chromosome band 11q23, frequently is rearranged in patients with therapy-related acute myeloid leukemia who previously were treated with DNA topoisomerase II inhibitors. In this study, we have identified a fusion partner of MLL in a 10-year-old female who developed therapy-related acute myeloid leukemia 17 months after treatment for Hodgkin's disease. Leukemia cells of this patient had a t(11;17)(q23;q25), which involved MLL as demonstrated by Southern blot analysis. The partner gene was cloned from cDNA of the leukemia cells by use of a combination of adapter reverse transcriptase-PCR, rapid amplification of 5' cDNA ends, and BLAST database analysis to identify expressed sequence tags. The full-length cDNA of 2.8 kb was found to be an additional member of the septin family, therefore it was named MSF (MLL septin-like fusion). Members of the septin family conserve the GTP binding domain, localize in the cytoplasm, and interact with cytoskeletal filaments. A major 4-kb transcript of MSF was expressed ubiquitously; a 1.7-kb transcript was found in most tissues. An additional 3-kb transcript was found only in hematopoietic tissues. By amplification with MLL exon 5 forward primer and reverse primers in MSF, the appropriately sized products were obtained. MSF is highly homologous to hCDCrel-1, which is a partner gene of MLL in leukemias with a t(11;22)(q23;q11.2). Further analysis of MSF may help to delineate the function of MLL partner genes in leukemia, particularly in therapy-related leukemia.
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PMID:MSF (MLL septin-like fusion), a fusion partner gene of MLL, in a therapy-related acute myeloid leukemia with a t(11;17)(q23;q25). 1033 4

ELL was originally identified as a gene that undergoes translocation with the trithorax-like MLL gene in acute myeloid leukemia. Recent studies have shown that the gene product, ELL, functions as an RNA polymerase II elongation factor that increases the rate of transcription by RNA polymerase II by suppressing transient pausing. Using yeast two-hybrid screening with ELL as bait, we isolated the p53 tumor suppressor protein as a specific interactor of ELL. The interaction involves respectively the transcription elongation activation domain of ELL and the C-terminal tail of p53. Through this interaction, ELL inhibits both sequence-specific transactivation and sequence-independent transrepression by p53. Thus, ELL acts as a negative regulator of p53 in transcription. Conversely, p53 inhibits the transcription elongation activity of ELL, suggesting that p53 is capable of regulating general transcription by RNA polymerase II through controlling the ELL activity. Elevated levels of ELL in cells resulted in the inhibition of p53-dependent induction of endogenous p21 and substantially protected cells from p53-mediated apoptosis that is induced by genotoxic stress. Our observations indicate the existence of a mutually inhibitory interaction between p53 and a general transcription elongation factor ELL and raise the possibility that an aberrant interaction between p53 and ELL may play a role in the genesis of leukemias carrying MLL-ELL gene translocations.
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PMID:Physical interaction and functional antagonism between the RNA polymerase II elongation factor ELL and p53. 1035 50

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