Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023467 (acute myeloid leukemia)
 35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin (IL)-1 is a proinflammatory cytokine that plays a pivotal role in driving the in vitro proliferation of leukemic cells through autocrine or paracrine pathways. Both IL-1 genes, IL-1 alpha and the prominent IL-1 beta, produce 31 kDa proteins. Whereas the precursor (pro) 31 kDa form of IL-1 alpha is biologically active, pro-IL-1 beta is inactive unless cleaved to its mature form by a cytoplasmic cysteine protease termed IL-1 beta converting enzyme (ICE). Although ICE was first thought to be a unique enzyme with a single biologic activity, several investigators have demonstrated that ICE shares sequence homology with the protein product of ced-3, the gene for cell death of the nematode Caenorhabditis elegans, and can induce apoptosis in different cellular systems. However, recent data indicate that ICE is a member of an increasingly recognized family of ICE-related molecules whose other members, such as CPP32, do not cleave pro-IL-1 beta but rather are effective inducers of apoptotic cell death. We recently investigated the effect of ICE inhibition on acute myelogenous leukemia (AML) colony growth. We found that inhibition of ICE reduced the production of mature IL-1 beta and suppressed the proliferation of AML colony-forming units, confirming the central role of IL-1 beta in AML progenitor proliferation. These data suggest that the primary role of ICE in AML cells is cleavage of pro-IL-1 beta rather than induction of apoptosis and that the antileukemic activity of specific ICE inhibitors warrants further exploitation.
Cytokines Mol Ther 1996 Mar
PMID:Role of interleukin-1 beta converting enzyme (ICE) in leukemia. 938 84

Diagnostic techniques, routinely used in clinical practice for monitoring acute leukemia patients, are able to detect only 1-5% of malignant cells. At present, two main techniques are being introduced for detection of minimal residual disease (MRD) in leukemia, namely immunological marker analysis and the polymerase chain reaction (PCR) technique with general sensitivity of 10(-4)-10(-5). Immunological marker analysis allows detection of unusual and aberrant immunophenotypes, and is usually performed by flow cytometry. PCR analysis allows detection of leukemia-specific DNA sequences, such as fusion regions of chromosome aberrations and junctional regions of rearranged immunoglogulin (Ig) genes and T-cell receptor (TcR) genes. The applicability of the immunophenotyping and PCR-mediated MRD techniques is dependent on the type of leukemia. In virtually all acute lymphoblastic leukemias, PCR analysis of Ig and TcR genes can be used, and immunophenotypic MRD detection is also possible in 70-80% of cases. In AML, immunophenotypic MRD detection can be applied in approximately 80% of cases and PCR analysis of chromosome aberrations in 25-40%. Each MRD technique has its advantages and limitations, which have to be weighed carefully to make an appropriate choice. Furthermore, standardization of the MRD techniques is needed before they are used for stratification or adaptation of treatment protocols. Finally, the clinical impact of MRD detection for the various subtypes of acute leukemias has to be established.
Cytokines Mol Ther 1996 Jun
PMID:Detection of minimal residual disease in acute leukemia patients. 938 97

The receptor for human interleukin-9 (hIL-9) might be a target for selective immunotherapy. It is expressed on a variety of malignant cells, including Hodgkin's lymphoma, non-Hodgkin lymphoma and acute myeloid leukemia (AML). We therefore constructed a new chimeric toxin by fusing hIL-9-cDNA to modified Pseudomonas aeruginosa exotoxin A (ETA'). The binding properties of the new recombinant protein, rhIL-9-ETA', were assessed on different cell lines expressing the hIL-9 receptor. The antitumor potency of rhIL-9-ETA' was evaluated against the Hodgkin-derived cell lines L540Cy, KM-H2 and L1236, the Burkitt lymphoma cell line Daudi, the erythroleukemia cell line K562, and the mastocytoma cell line P815-hIL9R, transfected with hIL-9 receptor cDNA. Recombinant hIL-9-ETA' exhibited potent specific cytotoxic effects against P815-hIL9R, K562 and L1236 cells, inhibiting protein synthesis by 50% (IC50) at concentrations of 0.05, 0.58 and 3 micrograms/ml respectively. The cytotoxic effect was abrogated after addition of polyclonal antibodies against the human IL-9. rhIL-9-ETA' might be of potential use against hIL-9R-expressing malignancies.
Cytokines Mol Ther 1996 Sep
PMID:A deletion mutant of Pseudomonas exotoxin-A fused to recombinant human interleukin-9 (rhIL-9-ETA') shows specific cytotoxicity against IL-9-receptor-expressing cell lines. 938 98

Leukemic growth is determined by the balance of cell proliferation, differentiation and cell death. In vitro, the blasts of acute myelogenous leukemia (AML) proliferate under the influence of certain positive and negative regulators (cytokines). We conducted this study to determine whether cytokines could induce markers of cell death (FAS/Apo-1/CD95), of cell activation (HLA-DR) and cell adhesion (ICAM-1, CD54) in AML cell lines and primary AML samples. As inducers, tumor necrosis factor (TNF)-alpha and interferon (IFN)-gamma were chosen. At baseline, CD95 and CD54 were weakly and HLA-DR was strongly expressed. CD95 was induced by TNF in 6/12 myeloid leukemia cell lines, and by IFN in 9/12 cell lines. Taken together, CD95 was upregulated by at least one cytokine in 11/12 cell lines. HLA-DR was inducible in 10/12 cell lines, with IFN being more potent than TNF. CD54 showed the strongest induction: TNF resulted in a more than 20-fold induction in positive cell lines, and IFN resulted in a more than 20-fold induction. In primary AML samples, CD95 was induced in 14/14 samples examined, with TNF being more potent than IFN. HLA-DR expression was increased by IFN in 12/15 samples and by TNF in 11/13 samples. The inducibility of HLA-DR by IFN was inversely correlated with baseline expression. As in the cell lines, CD54 was induced in most cases of AML. In addition to the induction of surface markers by cytokines, the culture of leukemia cells with fetal calf serum increased the expression of these markers, especially CD95 and CD54. Our results demonstrate that CD95 is not downregulated when TNF binds to its receptors, but is induced in cell lines and patient samples. Despite the induction of expression of CD95 (all cases of AML and most cell lines), 7/8 myelogenous leukemia lines and 6/7 patient samples remained resistant to CD95 triggering by antibody or by CD95 ligand, which suggests a lesion in normal cell signaling. As a positive control, a T-cell line (Jurkat) with 60% to > 90% apoptotic cells after a 22 h incubation was used. The number of CD95-binding sites was not correlated with the induction of apoptosis. The resistance of most cases of AML to CD95 triggering despite inducible expression may also be related to leukemia-specific antagonists of CD95 signal transduction, and requires further investigation. Altogether, our results indicate that surface markers related to apoptosis, activation and adhesion can be induced on AML blasts, and could be relevant to treatment strategies that exploit ligand binding to these surface epitopes.
Cytokines Mol Ther 1996 Sep
PMID:Induction of death (CD95/FAS), activation and adhesion (CD54) molecules on blast cells of acute myelogenous leukemias by TNF-alpha and IFN-gamma. 938 99

We have assessed in a phase I/II clinical study the tolerability and efficacy of long-term application of recombinant human interleukin-3 (rh-IL-3) in combination with antithymocyte globulin (ATG) and cyclosporin A (CSA) in 13 patients with aplastic anemia who were refractory to or relapsed after previous immunosuppressive treatment. Four cohorts of three patients were consecutively enrolled so that they received rh-IL-3 on days 9, 6, 3 and 1 after start of ATG/CSA treatment. Yeast-derived recombinant human IL-3 was administered by daily subcutaneous injection until day 90 at a dosage of 250 micrograms/m2. Long-term application of rh-IL-3 was well tolerated. The combination of rh-IL-3 with immunosuppression did not modify the known toxicities of ATG and CSA. Incidence and severity of rh-IL-3-related adverse events was less than in other phase I/II trials of rh-IL-3 as single-agent therapy. One might speculate that co-medication with CSA alleviates rh-IL-3-induced side effects. Three of eight patients with refractory AA and all four patients with relapsed AA responded to the combined treatment within four months. The median time to response was 91.5 days. There was evidence for an rh-IL-3-dependent response in two patients. Long-term rh-IL-3 did not cause stem cell exhaustion. One patient died early during the course of the study from EBV-driven lymphoproliferative disease. Two patients developed acute myeloid leukemia 4 and 22 months after cessation of rh-IL-3. In conclusion, long-term rh-IL-3 in combination with immunosuppression is well tolerated. The response rate to the combined treatment in refractory and relapsed AA was high. Recombinant human IL-3-dependent responses suggest efficacy. A prospective randomized trial comparing immunosuppression alone versus a combination with rh-IL-3 is warranted.
Cytokines Mol Ther 1996 Dec
PMID:Long-term interleukin-3 and intensive immunosuppression in the treatment of aplastic anemia. 938 7

Alleles of the IL-1 genes are associated with several autoimmune and inflammatory diseases, where they tend to have a role in the severity of the disease rather than in susceptibility to the disease itself. Allele 2 of the variable number tandem repeat (VNTR) polymorphism in the IL-1 receptor antagonist (IL-1ra) gene was the first marker of the IL-1 cluster to be associated in this way with severity of chronic, systemic and local inflammatory diseases. Because of the role that IL-1 also plays in the pathobiology of certain hematopoietic disorders, we aimed at examining the allelic distribution of the IL-1ra VNTR in leukemias, lymphomas and related malignancies. While in patients with chronic lymphocytic leukemia (CLL), hairy cell leukemia (HCL), multiple myeloma (MM) and related disorders, primary acute myeloid leukemia (AML), chronic myeloid leukemia (CML), and Hodgkin's disease (HD), the allelic distribution of IL-1RN was comparable to that seen in healthy control subjects, in a small group of patients with secondary AML the frequency of the IL-1RN*4 allele appeared to be significantly increased.
Cytokines Mol Ther 1996 Dec
PMID:Polymorphism within the second intron of the IL-1 receptor antagonist gene in patients with hematopoietic malignancies. 938 10

AML-1B is a hematopoietic transcription factor that is functionally inactivated by multiple chromosomal translocations in human acute myeloblastic and B-cell lymphocytic leukemias. The t(8;21)(q22;q22) translocation replaces the C terminus, including the transactivation domain of AML-1B, with ETO, a nuclear protein of unknown function. We previously showed that AML-1-ETO is a dominant inhibitor of AML-1B-dependent transcriptional activation. Here we demonstrate that AML-1-ETO also inhibits C/EBP-alpha-dependent activation of the myeloid cell-specific, rat defensin NP-3 promoter. AML-1B bound the core enhancer motifs present in the NP-3 promoter and activated transcription approximately sixfold. Similarly, C/EBP-alpha bound NP-3 promoter sequences and activated transcription approximately sixfold. Coexpression of C/EBP-alpha with AML-1B or its family members, AML-2 and murine AML-3, synergistically activated the NP-3 promoter up to 60-fold. The t(8;21) product, AML-1-ETO, repressed AML-1B-dependent activation of NP-3 and completely inhibited C/EBP-alpha-dependent activity as well as the synergistic activation. In contrast, the inv(16) product, which indirectly targets AML family members by fusing their heterodimeric DNA binding partner, CBF-beta, to the myosin heavy chain, inhibited AML-1B but not C/EBP-alpha activation or the synergistic activation. AML-1-ETO and C/EBP-alpha were coimmunoprecipitated and thus physically interact in vivo. Deletion mutants demonstrated that the C terminus of ETO was required for AML-1-ETO-mediated repression of the synergistic activation but not for association with C/EBP-alpha. Finally, overexpression of AML-1-ETO in myeloid progenitor cells prevented granulocyte colony-stimulating factor-induced differentiation. Thus, AML-1-ETO may contribute to leukemogenesis by specifically inhibiting C/EBP-alpha- and AML-1B-dependent activation of myeloid promoters and blocking differentiation.
Mol Cell Biol 1998 Jan
PMID:The t(8;21) fusion product, AML-1-ETO, associates with C/EBP-alpha, inhibits C/EBP-alpha-dependent transcription, and blocks granulocytic differentiation. 941 79

The effects of constitutive cytokine gene expression on the growth-factor-dependence of the human erythroleukemic TF-1 cell line have been determined. TF-1 cells normally require the presence of exogenous cytokines to proliferate in vitro. TF-1 cells were transfected with constructs containing either the germline granulocyte-macrophage colony-stimulating factor (GM-CSF) gene or the GM-CSF gene linked to the Moloney murine leukemia virus (Mo-MuLV) long terminal repeat. The Mo-MuLV-LTR, which contains a strong transcriptional enhancer, was added to stimulate the constitutive expression of the GM-CSF gene. Transfection with the germline GM-CSF gene did not abrogate the cytokine dependence of TF-1 cells, indicating that inheritance of an extra copy did not result in sufficient GM-CSF expression to abrogate cytokine dependence. In contrast, transfection with the LTR-modified GM-CSF gene resulted in the isolation of cells that proliferated in the absence of exogenous GM-CSF. The LTR increased nascent transcription and accumulation of GM-CSF mRNA transcripts, which had a normal half-life. This increase in GM-CSF expression led to secretion of sufficient GM-CSF to support the growth of the parental TF-1 cells. These results indicate that the deregulated expression of human cytokine genes induced by certain retroviral LTRs can result in their conversion into hematopoietic-specific oncogenes. These modified human cell lines provide a model to investigate autocrine transformation and therapy of acute myelogenous leukemia as well as other hematopoietic disorders.
Cytokines Cell Mol Ther 1997 Sep
PMID:Autocrine transformation of human hematopoietic cells after transfection with an activated granulocyte/macrophage colony stimulating factor gene. 942 74

The AML1-CBFbeta transcription factor complex is essential for the definitive hematopoiesis of all lineages and is the most frequent target of chromosomal rearrangements in human leukemia. In the t(8;21) translocation associated with acute myeloid leukemia (AML), the AML1(CBFA2/PEBP2alphaB) gene is juxtaposed to the MTG8(ETO/CDR) gene. We show here that the resultant AML1-MTG8 gene product specifically and strongly interacts with an 85-kDa phosphoprotein. Molecular cloning of cDNA indicated that the AML1-MTG8-binding protein (MTGR1) is highly related to MTG8 and similar to Drosophila Nervy. Comparison of amino acid sequences among MTGR1, MTG8, and Nervy revealed four evolutionarily conserved regions (NHR1 to NHR4). Ectopic expression of AML1-MTG8 in L-G murine myeloid progenitor cells inhibits differentiation to mature neutrophils and induces cell proliferation in response to granulocyte colony-stimulating factor (G-CSF). Analysis with C-terminal deletion mutants of AML1-MTG8 indicated that the region of 51 residues (488 to 538), which contains NHR2, is essential for the induction of G-CSF-dependent cell proliferation. Immunoprecipitation analysis indicates that this region is required for AML1-MTG8 to form a stable complex with MTGR1. Overexpression of MTGR1 stimulates AML1-MTG8 to induce G-CSF-dependent proliferation of L-G cells and to interfere with AML1-dependent transcription. These results suggest that AML1-MTG8 could function as a complex with MTGR1 and that the complex might be important in promoting leukemogenesis.
Mol Cell Biol 1998 Feb
PMID:The AML1-MTG8 leukemic fusion protein forms a complex with a novel member of the MTG8(ETO/CDR) family, MTGR1. 944 81

The human CAN gene was first identified as a target of t(6;9)(p23;q34), associated with acute myeloid leukemia and myelodysplastic syndrome, which results in the expression of a DEK-CAN fusion gene. CAN, also called NUP214, is a nuclear pore complex (NPC) protein that contains multiple FG-peptide sequence motifs. It interacts at the NPC with at least two other proteins, the nucleoporin NUP88 and hCRM1 (exportin 1), which was recently shown to function as a nuclear export receptor. Depletion of CAN in knockout mouse embryonic cells results in cell cycle arrest in G2, followed by inhibition of nuclear protein import and a block of mRNA export. We overexpressed CAN and DEK-CAN in U937 myeloid precursor cells. DEK-CAN expression did not interfere with terminal myeloid differentiation of U937 cells, whereas CAN-overexpressing cells arrested in G0, accumulated mRNA in their nuclei, and died in an apoptotic manner. Interestingly, we found that hCRM1 and import factor p97/importin beta colocalized with the ectopically expressed CAN protein, resulting in depletion of both factors from the NPC. Overexpression of the C-terminal FG-repeat region of CAN, which contains the binding site for hCRM1, caused sequestering of hCRM1 in the nucleoplasm and was sufficient to inhibit cell growth and to induce apoptosis. These results confirm that CAN plays a crucial role in nucleocytoplasmic transport and imply an essential role for hCRM1 in cell growth and survival.
Mol Cell Biol 1998 Mar
PMID:Overexpression of the nucleoporin CAN/NUP214 induces growth arrest, nucleocytoplasmic transport defects, and apoptosis. 948 38


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