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)

We present a unique chromosomal abnormality found in a patient with acute myeloblastic leukemia of French-American-British subtype M3. The patient was referred for an evaluation of a chromosomal anomaly exclusively associated with FAB M3 or acute promyelocytic leukemia: a translocation between chromosomes 15 and 17, t(15;17)(q22;q21.1). Neither t(15;17) nor rearrangement of RARalpha was detected by routine G-banded chromosome as well as fluorescence in situ hybridization analysis using the commercial dual-color PML/RARalpha translocation probe and the RARalpha probe, a break apart rearrangement dual-color probe. Instead of the typical rearrangement between chromosomes 15 and 17, all cells analyzed had a duplication of the segment of chromosome 15 between bands 15q15 and 15q26.
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PMID:Duplication 15q as the sole anomaly in an acute promyelocytic leukemia patient without t(15;17). 1241 79

Acute myeloid leukemia (AML)-associated chromosomal translocations result in formation of chimeric transcription factors, such as PML/RARalpha, PLZF/RARalpha, and AML-1/ETO, of which the components are involved in regulation of transcription by chromatin modeling through histone acetylation/deacetylation. The leukemic differentiation block is attributed to deregulated transcription caused by these chimeric fusion proteins, which aberrantly recruit histone-deacetylase (HDAC) activity. One essential differentiation pathway blocked by the leukemic fusion proteins is the vitamin (Vit) D(3) signaling. Here we investigated the mechanisms by which the leukemic fusion proteins interfere with VitD(3)-induced differentiation. The VitD(3)-receptor (VDR) is, like the retinoid receptors RAR, retinoid X receptor, and the thyroid hormone receptor (TR), a ligand-inducible transcription factor. In the absence of ligand, the transcriptional activity of TR and RAR is silenced by recruitment of HDAC activity through binding to corepressors. In the presence of ligand, TR and RAR activate transcription by releasing HDAC activity and by recruiting histone-acetyltransferase activity. Here we report that VDR binds corepressors in a ligand-dependent manner and that inhibition of HDAC activity increases VitD(3) sensitivity of HL-60 cells. Nevertheless, the inhibition of HDAC activity is unable to overcome the block of VitD(3)-induced differentiation caused by PLZF/RARalpha expression. Here we demonstrate that the expression of the translocation products PML/RARalpha and PLZF/RARalpha impairs the localization of VDR in the nucleus by binding to VDR. Furthermore, the overexpression of VDR in U937 cells expressing AML-related translocation products completely abolishes the block of VitD(3)-induced differentiation. Taken together these data indicate that the AML-associated translocation products block differentiation not only by interfering with chromatin-modeling but also by sequestering factors involved in the differentiation signaling pathways, such as VDR in the VitD(3)-induced differentiation.
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PMID:AML-associated translocation products block vitamin D(3)-induced differentiation by sequestering the vitamin D(3) receptor. 1246 Sep 26

To investigate the value of metaphase-fluorescence in situ hybridization (M-FISH) in the diagnosis of acute promyelocytic leukemia (APL) and the detection of its minimal residual disease (MRD), 10 cases of untreated acute myeloid leukemia (AML) (de novo APL 5 cases, relapsed APL 3 cases, AML-M(1) and AML-M(5) one case each) diagnosis by cell morphology at presentation and 10 cases of APL after complete remission (CR) were studied by M-FISH using a whole chromosome 17 painting probe labeled by digoxigenin and the results were compared with that of conventional cytogenetic examination and reverse transcription-polymerase chain reaction (RT-PCR). Among 10 untreated AML cases, 7 had positive M-FISH results, of whom 4 had t (15;17) translocation, 3 had normal karyotype. Six of them had PML/RARalpha fusion transcript except one, in whom RT-PCR did not be performed; 3 had negative M-FISH results, of whom one had del (2q) x 2 abnormalities, who was RT-PCR-positive for PML/RARalpha fusion transcript; one had complex karyotype abnormalities, whose RT-PCR was negative for PML/RARalpha fusion transcript; one had t (9;22) translocation, whose RT-PCR was negative for PML/RARalpha fusion transcript, but positive for BCR/ABL fusion transcript. Thus the diagnosis of AML-M(3) was revised as AML-M(2) for the latter two cases. 10 APL cases after CR had normal karyotype, but 12/15 M-FISH assays detected 1 - 5 t (15;17) positive cells in 9 of them. This finding is compatible with the results of RT-PCR assays. Leukemia relapse was seen in one case, and two positive M-FISH results were appeared in the 2 assays at a 13 months' interval. This study suggests that M-FISH had important practical value in the diagnosis of APL and the detection of MRD, and that it is less sensitive than RT-PCR, however, it seems to be more potential for prediction of the relapse of leukemia due to its capacity of detecting quantitatively the chromosome translocation in proliferative cells.
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PMID:[Application of Metaphase-Fluorescence in Situ Hybridization to the Diagnosis of Acute Promyelocytic Leukemia and the Detection of Minimal Residual Disease] 1257 78

The WT1 gene encoding a zinc finger DNA-binding protein was identified as a tumor suppressor gene being responsible for Wilms' tumor. Recently, aberrant expression of WT1 gene and an inverse correlation between its expression levels and prognosis have been demonstrated in acute myeloid leukemia (AML), suggesting it is a novel tumor marker for leukemic blast cells. To explore whether the WT1 may be used as a marker for detection of minimal residual disease (MRD) in acute leukemia, we examined the sensitivity of the nested reverse transcriptase-polymerase chain reaction (RT-PCR) by using WT1 gene primers in comparison with tumor-specific marker genes, such as PML/RARalpha gene in NB4 cells or bcr-abl gene in K562 cells. In all samples, the integrity of RNA was confirmed by amplification of the c-abl gene as an internal control. The limits in amount of leukemic cells detected by two-step RT-PCR with primers for WT1 or tumor specific fusion gene were 10(-4) and 10(-5) in NB4 cells and 10(-3) to 10(-4) and higher than 10(-6) for K562 cells, respectively. None was WT1 positive in peripheral blood mononuclear cells (MNC) from 29 blood donors, while bone marrow MNCs from eight of 21 cases (38.1%) of nonmalignant patient WT1 gene expression were found. Our results suggested that monitoring of WT1 expression makes it possible to rapidly assess the effectiveness of treatment and follow up MRD in AML cases regardless of the presence or absence of tumor-specific markers.
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PMID:[Expression of the Wilms' Tumor Gene WT1 and Detection of Minimal Residual Disease in Acute Leukemia] 1257 85

Acute promyelocytic leukemia (APL) M3 is an acute myeloid leukemia (AML) subtype characterized by proliferation of malignant promyelocytes with mature myeloid immunophenotype and the translocation t(15;17)(q22;q11), which results in the fusion of retinoic acid receptor-alpha (RARalpha) gene on chromosome 17 and the gene PML on chromosome 15. There are three M3 morphologic variants: the typical hypergranular form and the microgranular and basophilic variants. Although most leukemic cells in M3 patients express t(15;17), other cytogenetic abnormalities have also been reported. Also, there are three molecular variants of the PML/RARalpha transcript (bcr1, bcr2, bcr3). Blasts had typical hypergranular appearance (13 patients) with a mature myeloid immunophenotype (HLA-DR(-),CD13(+), and/or CD33(+)) (10 patients) in the majority of patients with M3 followed in this study. The typical translocation [t(15;17)(q22;q11)] was detected by cytogenetic analysis in 5 M3 patients, but PML/RARalpha was positive in 13 out of 15 patients, as assessed by RT-PCR (8 patients with bcr1 and 5 with bcr3 subtype). Cytogenetic diversity was found in three patients (1 with t(17;17), 1 with +8, and 1 with add (7)(q22); -7; +8). According to many studies, leukemic cell heterogeneity in APL influences the clinical outcome of disease. The analysis of certain leukemic cell characteristics on the clinical outcome in our study revealed that patients with bcr3 had shorter medians of first remission and survival in comparison to patients with the bcr1 isoform of PML/RARalpha. Also, the clinical relapse of disease in 4 APL patients with reverted PML/RAR alpha positivity is consistent with the view that detection of PML/RARalpha by RT-RCR in patients in remission implies a poor prognosis. On the contrary, lack of detection of PML/RARalpha by RT-PCR at least three times is a sign of long remission and survival.
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PMID:Acute promyelocytic leukemia M3: cytomorphologic, immunophenotypic, cytogenetic, and molecular variants. 1259 Jul 9

Fluorescence in situ hybridization analysis was carried out in five patients with acute myeloblastic leukemia of various French-American-British subtypes and with double trisomy of chromosomes 8 and 21. PML-RARA fusion was detected with appropriate molecular probes in one patient with acute promyelocytic leukemia without t(15;17). Two PAC probes covering the 5' and 3' part of the RUNX1 gene were used in the four other patients. While three copies were present in three patients, as expected from conventional karyotype analysis, only two hybridization signals were present in the fifth patient. This was due to the apparent loss of the 3' part of RUNX1. Since chromosome number abnormalities may be associated with submicroscopic gene rearrangements, it should be important to search for them for a better understanding of mechanisms of leukemogenesis, and to understand the prognostic heterogeneity in leukemic patients with aneusomies without apparent chromosome structure rearrangements.
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PMID:Double trisomy 8 and 21 in acute myelocytic leukemias, one with rearrangement of the RUNX1 gene. 1269 96

Mutations of receptor tyrosine kinases are implicated in the constitutive activation and development of human hematologic malignancies. An internal tandem duplication (ITD) of the juxtamembrane domain-coding sequence of the FLT3 gene (FLT3-ITD) is found in 20-25% of adult acute myeloid leukemia (AML) and at a lower frequency in childhood AML. FLT3-ITD is associated with leukocytosis and a poor prognosis, especially in patients with normal karyotype. Recently, there have been three reports on point mutations at codon 835 of the FLT3 gene (D835 mutations) in adult AML. These mutations are located in the activation loop of the second tyrosine kinase domain (TKD) of FLT3 (FLT3-TKD). The clinical and prognostic relevance of the TKD mutations is less clear. To the best of our knowledge, there has been no report to describe FLT3-TKD mutations in childhood AML. In this pediatric series, FLT3-TKD mutations occurred in three of 91 patients (3.3%), an incidence significantly lower than that of FLT3-ITD (14 of 91 patients, 15.4%) in the same cohort of patients. None of them had both FLT3-TKD and FLT3-ITD mutations. Sequence analysis showed one each of D835 Y, D835 V, and D835 H. Of the three patients carrying FLT3-TKD, two had AML-M3 with one each of L- and V-type PML-RARalpha, and another one had AML-M2 with AML1-ETO. None of our patients with FLT3-TKD had leukocytosis at diagnosis. At bone marrow relapse, one of the four patients examined acquired FLT3-ITD mutation and none gained FLT3-TKD mutation.
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PMID:FLT3-TKD mutation in childhood acute myeloid leukemia. 1275 Jul 1

MLL rearrangements in acute myeloid leukemia (AML) include translocations and intragenic abnormalities such as internal duplication and breakage induced by topoisomerase II inhibitors. In adult AML, FLT3 internal tandem duplications (ITDs) are more common in cases with MLL intragenic abnormalities (33%) than those with MLL translocation (8%). Mutation/deletion involving FLT3 D835 are found in more than 20% of cases with MLL intragenic abnormalities compared with 10% of AML with MLL translocation and 5% of adult AML with normal MLL status. Real-time quantification of FLT3 in 141 cases of AML showed that all cases with FLT3 D835 express high level transcripts, whereas FLT3-ITD AML can be divided into cases with high-level FLT3 expression, which belong essentially to the monocytic lineage, and those with relatively low-level expression, which predominantly demonstrate PML-RARA and DEK-CAN. FLT3 abnormalities in CBF leukemias with AML1-ETO or CBFbeta-MYH11 were virtually restricted to cases with variant CBFbeta-MYH11 fusion transcripts and/or atypical morphology. These data suggest that the FLT3 and MLL loci demonstrate similar susceptibility to agents that modify chromatin configuration, including topoisomerase II inhibitors and abnormalities involving PML and DEK, with consequent errors in DNA repair. Variant CBFbeta-MYH11 fusions and bcr3 PML-RARA may also be initiated by similar mechanisms.
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PMID:FLT3 and MLL intragenic abnormalities in AML reflect a common category of genotoxic stress. 1279 58

We utilized a mouse model of acute promyelocytic leukemia (APL) to investigate how aberrant activation of cytokine signaling pathways interacts with chimeric transcription factors to generate acute myeloid leukemia. Expression in mice of the APL-associated fusion, PML-RARA, initially has only modest effects on myelopoiesis. Whereas treatment of control animals with interleukin-3 (IL-3) resulted in expanded myelopoiesis without a block in differentiation, PML-RARA abrogated differentiation that normally characterizes the response to IL-3. Retroviral transduction of bone marrow with an IL-3-expressing retrovirus revealed that IL-3 and promyelocytic leukemia-retinoic acid receptor alpha (PML-RARalpha) combined to generate a lethal leukemia-like syndrome in <21 days. We also observed that a constitutively activated mutant IL-3 receptor, beta(c)V449E, cooperated with PML-RARalpha in leukemogenesis, whereas a different activated mutant, beta(c)I374N, did not. Analysis of additional mutations introduced into beta(c)V449E showed that, although tyrosine phosphorylation of beta(c) is necessary for cooperation, the Src homology 2 domain-containing transforming protein binding site is dispensable. Our results indicate that chimeric transcription factors can block the differentiative effects of growth factors. This combination can be potently leukemogenic, but the particular manner in which these types of mutations interact determines the ability of such combinations to generate acute myeloid leukemia.
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PMID:Cooperation of cytokine signaling with chimeric transcription factors in leukemogenesis: PML-retinoic acid receptor alpha blocks growth factor-mediated differentiation. 1280 98

We report on three cases with myelocytic malignancies cytogenetically characterized by a deletion of chromosome 15 occurring as the sole cytogenetic aberration. The deletions were defined as del(15) (q12q21) (two cases) and del(15)(q11q21) (one case). Cytogenetic analysis was supplemented by fluorescence in situ hybridization (FISH) using a chromosome 15 specific whole chromosome painting probe and probes hybridizing to the UBE3A gene on 15q11~q13, the PML gene on 15q22, and the telomeric region of 15q. Hereby, an interstitial deletion of 15q including UBE3A, but not PML and the telomeric region of 15q could be demonstrated. Two of our patients were diagnosed as acute myelocytic leukemia (AML) with bone marrow dysplasia classified as AML-M6 and AML-M4, respectively, according to the French-American-British classification; the third patient suffered from a chronic myelomonocytic leukemia (CMMoL). In two cases, the aberration was found at the time of primary diagnosis, whereas the third case showed the del(15) only during relapse of leukemia. Both cases with acute leukemia did not adequately respond to intensive chemotherapeutic treatment and died 13 and 11 months, respectively, after primary diagnosis. Our findings and the data of five previously published cases with an isolated del(15) indicate that: 1) del(15) represents a rare but recurrent abnormality in myelocytic hemopathies; 2) in our cases, del(15) was interstitial and included the region 15q11~q13/UBE3A, but not 15q22/PML and the telomeric region of 15q as shown by FISH; 3) del(15) occurs frequently in disorders with myelodysplastic or myeloproliferative features and may therefore affect early hematopoietic progenitor cells; and 4) del(15) may occur during disease progression and is often associated with an unfavorable prognosis.
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PMID:Deletion of chromosome 15 represents a rare but recurrent chromosomal abnormality in myelocytic malignancies. 1281 Feb 48

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