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)

The AML1/ETO fusion transcript is expressed in virtually all patients with t(8;21) (q22;q22) acute myeloid leukemia (AML). The fusion transcript can be detected by reverse transcription-polymerase chain reaction (RT-PCR) in most of these patients in long-term complete remission (CR) following conventional chemotherapy or autologous bone marrow transplantation (BMT). However, AML1/ETO expression has not been analyzed in a series of patients following allogeneic BMT. We examined CR bone marrow (BM) samples and, in some cases, blood samples from 10 patients with t(8;21) leukemia who underwent allogeneic BMT in either first or second remission or first or second relapse. A variety of myeloablative regimens were used. Eight patients received non-T-cell depleted BM from matched sibling donors, one patient received a T-cell depleted haploidentical BM, and one patient received a non-T-cell depleted BM from a matched unrelated donor (MUD). Five patients developed acute and/ or chronic graft versus host disease (GVHD). The furthest time points analyzed for the AML1/ETO transcript in the 10 patients in CR following allogeneic BMT ranged from 7.5 to 83.0 months. Sufficient RNA was extracted from the most recent BM or BM and blood samples from nine patients to assay for presence or absence of the AML1/ETO fusion transcript by RT-PCR. The fusion transcript was detected by RT-PCR in all nine of these patient samples; eight were positive in BM and one was negative in BM, but positive in blood. The fusion transcript could not be detected in a BM sample from the tenth patient obtained 7.5 months after BMT, but the amount of RNA available was suboptimal. Hematopoietic chimerism could be demonstrated in sorted CD34+ BM cells from two of four patient CR BM samples with RT-PCR evidence of the fusion transcript. Additionally, in one of the two cases with chimerism, we demonstrated an abnormal clonal population of recipient cells in the CR BM sample by fluorescence in situ hybridization. One patient died of complications from GVHD, while the other nine patients remain alive without evidence of relapse, with a median follow-up time of 27 (range, 7.5 to 87) months post-BMT. These data suggest that allogeneic BMT, like conventional chemotherapy and autologous BMT, is not sufficient to eradicate cells expressing AML1/ETO, and that a positive RT-PCR for the fusion transcript post allogeneic BMT is compatible with continued CR.
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PMID:Persistence of the AML1/ETO fusion transcript in patients treated with allogeneic bone marrow transplantation for t(8;21) leukemia. 937 7

The disruption of transcriptional regulatory circuits through the elimination of negative regulatory factors (tumor suppressors), the activation of positive acting factors (oncogenes), or when chimeric proteins result from chromosomal translocations, is likely a key event in multistep tumorigenesis. Here, using the transcription factors E2F and AML-1 as model systems, we discuss the disruption of coordinate transcriptional regulation in oncogenesis. E2F oncogenic signals are released when the pRb tumor suppressor is inactivated, and E2F activation may necessitate the coordinate inactivation of a second tumor suppressor, p53. AML-1 is the target of the (8;21) translocation, found in approximately 15% of acute myeloid leukemia (AML) cases, and the t(12;21), found in up to 30% of childhood B-cell acute lymphoblastic leukemias. The t(8;21) creates a fusion protein between AML-1 and a gene of unknown function, mtg8 (ETO), whereas the t(12;21) fuses the TEL (translocation-ets-leukemia) transcription factor to the N-terminus of AML-1. The inv(16), which is the most frequent anomaly found in AML, also targets AML-1, by fusing the gene that encodes AML-1's heterodimeric partner CBF beta to the smooth muscle myosin heavy chain gene MYHll. Thus, E2F and AML-1 provide excellent models for the disruption of transcriptional regulation in cancer.
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PMID:Indirect and direct disruption of transcriptional regulation in cancer: E2F and AML-1. 883 31

The chromosomal translocation (8;21)(q22;q22) in the AML M2 subtype according to the FAB classification, results in the production of a novel fusion gene AML1/ETO. The chimaeric AML1/ETO transcript is useful for the detection of minimal residual disease (MRD). Recently, several studies on the detection of AML1/ETO transcripts in t(8;21) AML have been reported. However, the clinical significance of a small number of AML1/ETO transcripts by a reverse transcription-polymerase chain reaction (RT-PCR) remains to be elucidated. We have developed a novel quantitative RT-competitive PCR assay and evaluated the clinical usefulness of this method by the monitoring of MRD in eight patients with t(8;21) AML. In four patients in first continuous complete remission (CR) the value of MRD was always < 0.1 fg of the competitor dose throughout their courses, whereas in four relapsed patients there was an increase in the value of MRD to > 0.1 fg of the competitor dose before cytogenetic relapse. We conclude that the detection of the presence of cells with AML1/ETO fusion transcripts by our RT-competitive PCR assay may be useful to monitor disease progression and to predict subsequent relapse.
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PMID:Serial quantification of minimal residual disease of t(8;21) acute myelogenous leukaemia with RT-competitive PCR assay. 885 43

The alterations of transcription factor genes by chromosomal translocations play an important role in leukemogenesis and lymphomagenesis. The alterations are classified into two groups. One is the chimeric gene formation, and the other is the aberrant expression without structural changes. The former type is associated with the chromosomal translocations found in acute myeloid leukemia, such as the AML1/MTG8 in t(8;21) and PML/RAR alpha in t(15;17). The latter is the main mechanism in the gene activations observed in acute lymphoblastic leukemia and lymphoma. Many transcription factor genes are activated by the recombination with the immunoglobulin genes in B cell malignancies or T cell receptor genes in T cell malignancies. We isolated the AML1/EVI-1 fusion gene generated by the t(3;21) translocation, which is usually found in blastic crisis of chronic myelocytic leukemia. The chimeric transcription factor encoded by the fusion gene has dual functions, namely differentiation block and stimulation of proliferation. These findings provide new insight into the molecular mechanism in leukemogenesis by the chimeric transcription factors.
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PMID:Chromosomal abnormalities and oncogenes. 886 20

AML1 is involved in the (8;21) translocation, associated with acute myelogenous leukemia (AML)-type M2, which results in the production of the AML1-ETO fusion protein: the amino-terminal 177 amino acids of AML1 and the carboxyl-terminal 575 amino acids of ETO. The mechanism by which AML1-ETO accomplishes leukemic transformation is unknown; however, AML1-ETO interferes with AML1 transactivation of such AML1 targets as the T-cell receptor beta enhancer and the granulocyte-macrophage colony-stimulating factor promoter. Herein, we explored the effect of AML1-ETO on regulation of a myeloid-specific AML1 target, the macrophage colony-stimulating factor (M-CSF) receptor promoter. We found that AML1-ETO and AML1 work synergistically to transactivate the M-CSF receptor promoter, thus exhibiting a different activity than previously described. Truncation mutants within the ETO portion of AML1-ETO revealed the region of ETO necessary for the cooperativity between AML1 and AML1-ETO lies between amino acids 347 and 540. Endogenous M-CSF receptor expression was examined in Kasumi-1 cells, derived from a patient with AML-M2 t(8;21) and the promonocytic cell line U937. Kasumi-1 cells exhibited a significantly higher level of M-CSF receptor expression than U937 cells. Bone marrow from patients with AML-M2 t(8;21) also exhibited a higher level of expression of M-CSF receptor compared with normal controls. The upregulation of M-CSF receptor expression by AML1-ETO may contribute to the development of a leukemic state in these patients.
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PMID:Synergistic up-regulation of the myeloid-specific promoter for the macrophage colony-stimulating factor receptor by AML1 and the t(8;21) fusion protein may contribute to leukemogenesis. 887 34

Spontaneous remissions of acute myeloid leukemia (AML) have been documented in association with infection as well as blood transfusions. Activation of the immune system including an increased number of NK cells and cytokine release have been implicated in the mechanism of this phenomenon. We have observed spontaneous remissions in two patients with AML (one with a t(8;21)-positive M2, one with M5b), both occurring after infection and blood transfusions. The bone marrow showed a reduction of blast cells from 65% to 2% or 40% to 1%, respectively. Remission was accompanied by a marked polyclonal hypergammaglobulinemia in both cases (IgG values of 6420 and 2160 mg/dl, IgA of 802 and 811 mg/dl, respectively). A concomitant increase in bone marrow plasma cells was observed in both patients. Reduction of AML1/ETO PCR positivity from one-step to two-step PCR (approximately 100-fold) was documented in the patient with a t(8;21), while a regression of lymph node and skin leukemic infiltrations occurred in the patient with M5b. One patient relapsed after 4 months, at a time when his serum immunoglobulin levels had markedly decreased. The other patient is in continuous remission after 14 months. These cases suggest a potential role for a humoral immune response in the mechanism of spontaneous remission.
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PMID:Spontaneous remission of acute myeloid leukemia after infection and blood transfusion associated with hypergammaglobulinaemia. 889 Jul 8

We have developed a quantitative reverse transcriptase-polymerase chain reaction method for the quantitation of AML1-MTG8 transcripts in patients with AML-M2 and t(8;21) in different phases of the disease. Using this method, we have tested sequential samples from 13 patients to monitor minimal residual disease and were able to show a significant increase in AML1-MTG8 transcripts level in two patients 2 and 4 months before clinical relapse. In five patients tested at presentation and then sequentially at remission, we detected a marked decrease in the level of AML1-MTG8 transcripts as the treatment progressed. Patients in long-term remission of their disease had a level of up to 1 x 10(3) AML1-MTG8 molecules/microgram RNA. Two patients tested 2 and 4 months before hematologic relapse showed a level of 0.71 x 10(5) molecules/microgram RNA and this level increased further during relapse to 0.71 x 10(7) and 2.27 x 10(5) molecules/microgram RNA, respectively. Our results show that quantitation of AML1-MTG8 transcripts by competitive polymerase chain reaction is valuable in predicting early relapse in AML with t(8;21). Identification of at-risk patients may allow treatment to be modified to include additional or alternative therapy such as bone marrow transplantation.
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PMID:Monitoring of minimal residual disease by quantitative reverse transcriptase-polymerase chain reaction for AML1-MTG8 transcripts in AML-M2 with t(8; 21). 891 34

The AML1 gene, located on chromosome 21, is involved in several distinct chromosomal translocations in human leukemia. In t(8;21) acute myelogenous leukemia (AML), the AML1 gene is juxtaposed to the ETO gene located on chromosome 8, generating an AML1/ETO fusion protein. Both AML1/ETO and the AML1 proteins recognize the same consensus DNA-binding motif (TGT/CGGT), which is found in the promoters of several genes involved in hematopoiesis. We found that two myeloid leukemia cell lines with the t(8;21) translocation, Kasumi and SKNO-1, have elevated levels of BCL-2 protein compared with other myeloid cell lines. In addition, we identified a consensus AML1 binding site in the BCL-2 promoter. Thus far, AML1/ETO has been shown to dominantly repress its target genes; however, we found that AML1/ETO activates transcription of the BCL-2 gene in U937 cells. This activation requires the presence of both the runt homology domain (rhd) and the C-terminal portion of AML1/ETO. We demonstrated sequence specific binding of both AML1A and AML1/ETO to the TGTGGT sequence in the BCL-2 promoter and showed that the AML1 binding site is required for responsiveness to AML1/ETO. Interestingly, AML1A and AML1B do not modulate the activity of the BCL-2 promoter. The elevated levels of BCL-2 in cells that express AML1/ETO may prolong their life span and contribute to the development of t(8;21) leukemia.
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PMID:The AML1/ETO fusion protein activates transcription of BCL-2. 894 60

Here we report a case of acute myelogenous leukemia (M2, FAB classification) presenting with cytogenetic abnormalities of ins(21;8), +del(8) without t(8;21). A 8;21 chromosome translocation is frequently found in acute myelogenous leukemia, especially in the M2 subtype. The translocation results in a fusion transcript between AML1 and MTG8 (ETO), assigned on chromosomes 21 and 8, respectively. Among patients with a t(8;21) abnormality, solid leukemic tumor deposits outside the marrow or good response to chemotherapy are observed frequently. Decrease in neutrophil alkaline phosphatase score and positive rate, and eosinophilia in bone marrow or the blast cells with Auer rods expressing CD19, CD56 antigens occur at a relatively high rate. Although our case lacked these clinical, cytological and cytochemical features, expression of chimeric AML1-MTG8 mRNA was detected. AML1-MTG8 fusion transcript may play a critical role in leukemogenesis of AML M2. Studies on this case may help to reveal the oncogenic function of the AML1-MTG8 fusion gene in AML M2.
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PMID:[Acute myelogenous leukemia with ins(21;8) expressing AML-1-MTG8 fusion transcript]. 896 Jun 65

The t(8;21) chromosome translocation frequently occurs in the AML, acute myeloid leukemia, M2 sub-type. This translocation juxtaposes the AML1 gene on chromosome 21 with the MTG8(ETO) gene on chromosome 8, resulting in the expression of the AML1-MTG8(ETO) fusion transcript. The fusion product is thought to play a critical role in the abnormal proliferation and differentiation of myeloid leukemia cells. We investigated the effects of various differentiation inducers of myeloid leukemia cells on the growth and differentiation of Kasumi-1 and SKNO-1 cells, AML cell lines with t(8;21). These cells resisted differentiation into mature granulocytes and macrophages in response to various inducers of myelomonocytic differentiation, such as dimethyl sulfoxide, retinoic acid, butyrate, 12-O-tetradecanoylphorbol-13-acetate (TPA) and 1alpha,25-dihydroxyvitamin D3. On the other hand, dexamethasone can induce apoptosis in these cells at low concentrations, whereas other myelomonocytic leukemia cell lines tested were resistant to glucocorticoid-induced apoptosis. The levels of glucocorticoid receptor gene expression were high in Kasumi-1 and SKNO-1 cells. Expression of the AML1-MTG8(ETO), bcl-2, and c-myc genes was unchanged following exposure to dexamethasone. Glucocorticoids might induce the apoptosis of some types of AML cells, just like that of some lymphoid leukemia cells.
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PMID:Glucocorticoids induce apoptosis in acute myeloid leukemia cell lines with A t(8;21) chromosome translocation. 902 85

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