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)

Acute myelogenous leukemia is a heterogeneous disease that appears to evade the normal regulatory controls of tumor suppressor genes. Studies in AML have documented mutations in both p53 and Retinoblastoma (Rb) genes, but these mutations are relatively uncommon, especially compared to their mutational frequency in solid tumors. In addition, expression abnormalities have now been documented in several tumor suppressor genes or related genes including MDM2, p73, Rb, p14(ARF), p15(INK4B), and p16(INK4A). We review the current literature regarding tumor suppressor genes in AML and suggest how these genes may be involved in the development of the disease.
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PMID:Malignancy: Tumor Suppressor Gene Aberrations in Acute Myelogenous Leukemia. 1139 98

The p16INK4a gene is often disrupted or transcriptionally silenced by CpG island methylation in human cancers. However, in acute myeloid leukaemia (AML) alterations of the INK4a-ARF tumour suppressor locus are rarely found despite the noted variable p16INK4a mRNA and protein levels. The p14ARF, an alternative reading frame protein encoded from the same INK4a-ARF locus, is a potent tumour suppressor functionally linked to p53. There is little known regarding the role of p14ARF in primary human tumours. Therefore, we analysed the expression patterns of these two tumour suppressors in 37 cases of AML. The relative expression of p16INK4a and p14ARF mRNA in AML blasts, measured by a specific p16INK4a/p14ARF multiplex RT-PCR, was significantly shifted towards p14ARF whereas relatively lower levels of p16INK4a were detected. Quantitative RT-PCR revealed significantly higher expression of both transcripts in AML blasts when compared to normal differentiated myeloid cells or CD34+ progenitor cells. Furthermore, a good correlation between p16INK4a protein and mRNA was observed, whereas no correlation was found with p14ARF. Our results suggest: a) increased levels of both p16INK4a and p14ARF may participate in the pathogenesis of AML, b) that high p14ARF mRNA expression might influence p16INK4a transcription and c) that post-transcriptional regulatory mechanisms are important for p14ARF expression.
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PMID:Different p16INK4a and p14ARF expression patterns in acute myeloid leukaemia and normal blood leukocytes. 1169 25

Cyclin-dependent kinase inhibitors p16(INK4a) and p15(INK4b), encoded by the CDKN2A and B loci, play an important role in negative regulation of the cell cycle. Furthermore, p19(ARF) also encoded by the CDKN2A locus, has been shown to regulate positively the p53 pathway leading to growth arrest and apoptosis. All three genes have been inactivated in human tumors. In myeloid cells, p15(INK4b) mRNA is upregulated during cytokine-induced differentiation and/or growth arrest, and hypermethylation of the p15(INK4b) gene promoter region is a common event in acute myeloid leukemia. In the present study, we examined murine monocyte/macrophage tumors with deregulated c-myc for evidence of Ink4 gene inactivation. p15(Ink4b) mRNA and protein were detected in the majority of leukemias, and p16(Ink4a) mRNA and protein were highly expressed in two of them. pRb was in a hypophosphorylated state in most of the neoplasms indicating that the Cdk inhibitors that were expressed in the cells were functional. The observed expression of p15(Ink4b) is inconsistent with their proliferation state, although it might be expected to be expressed owing to the maturity of the cells. These data suggest, therefore, that deregulated c-Myc bypasses the pRb restriction point and cell cycle arrest in these tumors. An examination of p19(Arf) exons revealed deletions of the gene in up to 94% of the tumors. Since this gene shares exon 2 with p16(Ink4a), it is often difficult to determine which gene is the relevant tumor suppressor. However, the loss of only the p19(Arf)-specific exon 1 beta was observed in a tumor that had normal p16(Ink4a) protein expression. In addition, the p19(Arf)-specific exon was deleted in another tumor that expressed a functional chimeric protein, p15Ex1-p16Ex2-3; it was demonstrated here that this fusion protein is capable of inducing G1 arrest. These data overall supports the hypothesis that the critical inactivation event in these hematopoietic neoplasms is elimination of p19(Arf), and not Ink4 function.
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PMID:Consistent inactivation of p19(Arf) but not p15(Ink4b) in murine myeloid cells transformed in vivo by deregulated c-Myc. 1264 63

To gain insight into the significance of nuclear ubiquitinated proteins, two serial extracts prepared from various leukemic cells were analysed by western blotting with anti-ubiquitin antibody. Two previously unidentified ubiquitinated proteins with molecular masses of 10 and 17 kDa were found in 8 M urea-soluble extracts, obtained from Tris-buffer-insoluble materials, of acute myeloid leukemia OCI/AML 1a cells and the cells from the leukemia patients. Both proteins were successfully purified from the OCI/AML 1a cells and identified as monoubiquitin-truncated H2A conjugates, the 10 kDa ubiquitinated H2A(115-129) and the 17 kDa ubiquitinated H2A(54-129), suggesting that both proteins were produced by limited proteolysis of an intact form (23 kDa) of ubiquitinated H2A(1-129). The 17 kDa protein as well as the 23 kDa ubiquitinated histone H2A were localised in chromatin fractions of the OCI/AML cells and released by high concentrations of salt in a micrococcal nuclease-sensitive manner, suggesting their association with chromatin. In contrast, the 10 kDa protein remained insoluble even when the nuclei were treated with nuclease under high salt concentrations, presumably due to binding to the nuclear matrix. An antibody recognising H2A(70-81) also detected the 17 kDa protein in anti-ubiquitin immunoprecipitates obtained from the OCI/AML cell nuclei. In addition, the 17 kDa protein levels in THP-1 cells were transiently increased, concomitant with a decrease in the 23 kDa ubiquitinated H2A, by treatment with phorbol 12-myristate 13-acetate or all-trans-retinoic acid, both of which induce differentiation. This is the first report of probable proteolytic products of ubiquitinated H2A, which might have a role in nuclear functions.
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PMID:Purification of N-terminally truncated histone H2A-monoubiquitin conjugates from leukemic cell nuclei: probable proteolytic products of ubiquitinated H2A. 1282 67

The p14(ARF), p15(INK4B), and p16(INK4A) genes are important negative cell-cycle regulators often inactivated by deletions, mutations, or hypermethylation in malignancy. Hypermethylation of the three genes was studied in 81 patients with therapy-related myelodysplasia (t-MDS) or acute myeloid leukemia (t-AML) by methylation-specific PCR, and p15 methylation additionally by bisulfite genomic sequencing. In all, 55 patients disclosed p15 methylation, five patients showed p16 methylation, whereas p14 methylation was not observed. Methylation of p15 was closely associated with deletion or loss of chromosome arm 7q (P=0.0006). In t-MDS, the p15 methylation frequency and the p15 methylation density both increased significantly by stage (P=0.004 and 0.0002), and p15 methylation frequency increased with an increasing percentage of myeloblasts in the bone marrow (P=0.006). In a two-variable Cox model including the percentage of myeloblasts, p15 methylation was an independent prognostic factor (P=0.005). Methylation of p15 was less common in t-AML of subtype M5 than in other FAB subtypes (P=0.03). Methylation of p15 was unrelated to type of previous therapy, to latent period from start of therapy, to platelet count, and to p53 mutations. Inactivation of p15 and deletion of genes on chromosome arm 7q possibly cooperate in leukemogenesis.
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PMID:Methylation of p15INK4B is common, is associated with deletion of genes on chromosome arm 7q and predicts a poor prognosis in therapy-related myelodysplasia and acute myeloid leukemia. 1297 Jul 81

AML1-MTG8 is a chimeric transcription factor produced by t(8;21) chromosome translocation and causes AML. AML1-MTG8 acts as a dominant negative effector on normal AML1 protein, a key transcriptional regulator of hematopoietic differentiation, but its precise mechanism is not known. To analyze the function of AML1-MTG8 in leukemic cells and to explore the possibility of AML1-MTG8-targeted therapy, we designed nine small interfering RNAs (siRNAs) targeting a 25-nucleotide region spanning the fusion point of AML1 and MTG8. Two different siRNAs (AM2 and AM4) significantly reduced AML1-MTG8 expression from a transfected reporter plasmid at both the mRNA and protein levels. Both siRNAs did not reduce AML1b expression, but AM2 siRNA showed slightly reducing activity against MTG8b mRNA that is 86% homologous to the corresponded region of AML1-MTG8 mRNA. Moreover, using a cationic lipid reagent, the siRNAs were efficiently introduced into leukemia cell lines with t(8;21), SKNO-1 (30-40%) and Kasumi-1 (60-70%) cells, and reduced specifically the endogenous AML1-MTG8 expression. The siRNAs reduced neither the wild type AML1 in Kasumi-1 cells nor wild type MTG8b in human erythroblastic leukemia (HEL) cells. These results indicated that the two siRNAs are highly specific for the fusion mRNA. The knockdown of AML1-MTG8 in Kasumi-1 cells resulted in the activation of p14(ARF) promoter activity and increased the expression of integrin alphaIIb, whose expression is related to megakaryocytic differentiation. However, the knockdown of AML1-MTG8 in Kasumi-1 cells did not inhibit the cell growth, suggesting that the siRNA-mediated knockdown of AML1-MTG8 is useful for the functional analysis of the gene, but it alone might not be sufficient for gene therapy of the leukemia.
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PMID:Discrimination of target by siRNA: designing of AML1-MTG8 fusion mRNA-specific siRNA sequences. 1555 82

Nesiritide is a recombinant formulation of B-type natriuretic peptide used most commonly in the treatment of adults with decompensated congestive heart failure. The physiologic effects of BNP include natriuresis, diuresis, and smooth muscle relaxation. These physiologic effects result in its beneficial therapeutic effects, including a decrease in afterload, resulting in increased cardiac output with improved peripheral perfusion. The authors report on a 17-year-old with acute myelogenous leukemia who was admitted to the Pediatric ICU for treatment of septic shock, respiratory failure, myocardial dysfunction, and renal insufficiency. After the initial stabilization of his hemodynamic status, nesiritide was started and resulted in a stable balance of fluid intake versus output without the use of diuretics, improvement in myocardial function, and recovery of renal function manifested by a decrease of blood urea nitrogen and creatinine back to baseline values. The end-organ effects of nesiritide, previous reports regarding its use in the pediatric population, and its potential applications in the ICU setting are discussed.
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PMID:Nesiritide in a pediatric oncology patient with renal insufficiency and myocardial dysfunction following septic shock. 1602 Jan 20

Recent studies have suggested that one of the polycomb group genes, BMI-1, has an important role in the maintenance of normal and leukemic stem cells by repressing the INK4a/ARF locus. Here, we quantitatively examined BMI-1 expression level in samples from patients with acute myeloid leukemia (AML) and other hematologic malignancies. Moderate to high BMI-1 expression was detected in AML patients, and the BMI-1 expression levels in AML samples were significantly higher than in normal bone marrow controls (P = .0011). Specimens of French-American-British classification subtype M0 showed higher relative expression of the BMI-1 transcript (median, 390.2 3 10(-3)) than the other subtypes (median, 139.0 3 10(-3)) (P < .0001). Leukemia other than AML showed low to moderate expression. INK4a-ARF transcript expression tended to be inverse proportion to that of BMI-1. In an M0 patient with a high BMI-1 transcript level, the INK4a-ARF transcript level fell promptly and maintained a low value after the patient achieved complete remission. These results indicated that a subgroup of M0 patients has a high expression level of polycomb group gene BMI-1, which may contribute to leukemogenesis.
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PMID:BMI-1 is highly expressed in M0-subtype acute myeloid leukemia. 1610 58

The inv(16) is one of the most frequent chromosomal translocations associated with acute myeloid leukemia (AML) and creates a chimeric fusion protein consisting of most of the runt-related X1 co-factor, core binding factor beta fused to the smooth muscle myosin heavy chain MYH11. Expression of the ARF tumor suppressor is regulated by runt-related X1, suggesting that the inv(16) fusion protein (IFP) may repress ARF expression. We established a murine bone marrow transplant model of the inv(16) in which wild type, Arf+/-, and Arf-/- bone marrow were engineered to express the IFP. IFP expression was sufficient to induce a myelomonocytic AML even when expressed in wild type bone marrow, yet removal of only a single allele of Arf greatly accelerated the disease, indicating that Arf is haploinsufficient for the induction of AML in the presence of the inv(16).
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PMID:The inv(16) cooperates with ARF haploinsufficiency to induce acute myeloid leukemia. 1619 29

Disrupted patterns of acetylation and deacetylation of core histones play an important role in silencing transcription of hematopoietic important genes in acute myeloid leukemia (AML). A thorough investigation of these mechanisms and the response to pharmacologic modifiers will provide a better understanding of the role of histone acetylation in leukemogenesis. We describe here an analytical approach that combines acid urea polyacrylamide gel electrophoresis (AU-PAGE), amino acid coded mass tagging (AACM), and mass spectrometry (MS) for the investigation of histone acetylation patterns. The combined approach was used to follow the dynamics of H4 acetylation in Kasumi-1 cells harboring the fusion gene AML1/ETO shown to aberrantly recruit histone deacetylases (HDACs). The histones in Kasumi-1 cells were labeled by growing the cells in media in which lysine was replaced with stable isotope-labeled lysine (Lys-D4). Labeled and unlabeled cells were treated with depsipeptide and analyzed at different time points (0, 4, 8, 12, 24, and 48 h). The cells were mixed, the histone was extracted, and acetylated H4 isoforms were separated using AU-PAGE before in-gel trypsin digestion. The digests were analyzed by MALDI-TOF MS. Peptides were identified by mass and isotope pattern. LC-MS/MS of Arg-C digests were also performed to verify the acetylation pattern for H4. The major pattern of acetylation was determined as follows: initial acetylation at K16, followed by acetylation at K12, and finally acetylation of either K8 and/or K5.
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PMID:Histone H4 N-terminal acetylation in Kasumi-1 cells treated with depsipeptide determined by acetic acid-urea polyacrylamide gel electrophoresis, amino acid coded mass tagging, and mass spectrometry. 1720 51

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