Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

A substantial number of leukemic blast colonies were formed when conditioned medium of human bladder carcinoma cell line 5637 was added as a stimulator. Recombinant colony-stimulating factor (CSF) also stimulated leukemic blast cell proliferation, leading to colony formation. Furthermore, serum CSF levels in some patients with acute myelogenous leukemia (AML), as detected by sensitive enzyme-linked immunosorbent assay (ELISA), were high. These observations prompted us to study further the expressions of hematopoietic growth factor genes. Granulocyte-macrophage CSF (GM-CSF) mRNA was detected in the leukemic blast cells from about 30% of patients with AML by Northern blot analysis using strict hybridization conditions with or without in vitro blast cell enrichment. These findings suggest that the expression of cytokine genes including the GM-CSF gene reflects in vivo phenomena, although no clear relationship between expression of the genes and serum CSF level has been established. Gene encoding tumor necrosis factor alpha (TNF-alpha), lymphotoxin (LT) and transforming growth factor beta (TGF-beta) were sometimes expressed in some malignant hematological cell lines and also some fresh leukemic cells.
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PMID:Expression of cytokine genes in hematological malignancies. 269 48

Autonomous in vitro growth of myeloid leukemic colony-forming cells may in part result from autocrine production of colony-stimulating factors (CSF). Some acute myeloid leukemia (AML) samples, however, fail to synthesize CSF despite growing autonomously in agar, and are therefore believed to bypass CSF requirements. Cytokines such as IL-6, tumor necrosis factor (TNF)-alpha, and IL-1, products of cells of the myeloid lineage, are known to be involved in growth control of myeloid progenitor cells. Since these molecules may also contribute to autocrine and paracrine growth regulation of myeloid leukemias, we screened a series of AML for cytokine production. In addition, possible roles of IL-6, TNF-alpha, and IL-1 in growth control of AML were investigated in vitro. We show that a substantial proportion of AML cells produce IL-6, TNF-alpha, and IL-1-beta and use these mediators to stimulate their growth by disparate mechanisms: IL-6 acts as a costimulator to enhance CSF-induced clonogenicity of AML blasts. TNF-alpha induces CSF production by endothelial cells and may therefore provide a paracrine loop to support leukemia growth.
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PMID:Participation of the cytokines interleukin 6, tumor necrosis factor-alpha, and interleukin 1-beta secreted by acute myelogenous leukemia blasts in autocrine and paracrine leukemia growth control. 1456 12

Human granulocyte-macrophage colony-stimulating factor (GM-CSF) is a cytokine derived from activated T cells, endothelial cells, fibroblasts, and macrophages. It stimulates myeloid and erythroid progenitors to form colonies in semisolid medium in vitro, as well as enhancing multiple differentiated functions of mature neutrophils, macrophages, and eosinophils. We have examined the binding of human GM-CSF to a variety of responsive human cells and cell lines. The most mature myelomonocytic cells, specifically human neutrophils, macrophages, and eosinophils, express the highest numbers of a single class of high affinity receptors (Kd approximately 37 pM, 293-1000 sites/cell). HL-60 and KG-1 cells exhibit an increase in specific binding at high concentrations of GM-CSF; computer analysis of the data is nonetheless consistent with a single class of high affinity binding sites with a Kd approximately 43 pM and 20-450 sites/cell. Dimethyl sulfoxide induces a 3-10-fold increase in high affinity receptors expressed in HL-60 cells, coincident with terminal neutrophilic differentiation. Finally, binding of 125I-GM-CSF to fresh peripheral blood cells from six patients with chronic myelogenous leukemia was analyzed. In three of six cases, binding was similar to the nonsaturable binding observed with HL-60 and KG-1 cells. GM-CSF binding was low, or in some cases, undetectable on myeloblasts obtained from eight patients with acute myelogenous leukemia. The observed affinities of the receptor for GM-CSF are consistent with all known biological activities. Affinity labeling of both normal neutrophils and dimethyl sulfoxide-induced HL-60 cells with unglycosylated 125I-GM-CSF yielded a band of 98 kDa, implying a molecular weight of approximately 84,000 for the human GM-CSF receptor.
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PMID:Characterization of the human granulocyte-macrophage colony-stimulating factor receptor. 282 52

We have studied the cytotoxic effects of recombinant tumour necrosis factor and recombinant gamma interferon on primary cultures of leukaemia cells. The agents were added alone or in a combination to cells from 17 patients. Eleven had acute myeloblastic leukaemia (6 at presentation, 5 at relapse), 4 had acute lymphoblastic leukaemia, one had hairy cell leukaemia, and 2 had chronic myeloid leukaemia--one of whom was in myeloid blast transformation. Cells from patients with lymphoid malignancies or from the patient with chronic phase CML were not affected by either agent in any dose combination. In contrast, reduction of viability of myeloid blasts was weakly accelerated by TNF and gamma-interferon individually. Combination of the agents invariably produced enhanced killing and additive or synergistic effects were seen when 20-500 IU ml-1 of each cytokine was present. This sensitivity was also shown by blast cells from 5 patients with relapsed AML. We therefore suggest that trials of such combination therapy may be indicated in drug resistant or relapsed AML.
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PMID:Cytotoxic effects of tumour necrosis factor and gamma-interferon on acute myeloid leukaemia blasts. 310 70

A new cytokine has been recognized in the conditioned media (CM) of freshly isolated acute myelocytic leukemia cells, cultured with 12-0-tetradecanayl phorbol acetate (TPA) 10(-8)M. The fraction with 70,000 MW was separated from CM by ammonium sulfate precipitation, ion-exchange cation and anion chromatography, and Sephadex G-200 gel filtration. It was a fibroblast growth inhibitor (FGI). This substance stopped fetal and skin (MALME 3 line) fibroblast propagation. The cytostatic effect was reversible on removal of FGI. At the same time, FGI did not inhibit macrophage proliferation. The fraction stimulated formation of monocytic and granulocytic colonies altered the phenotype of human U-2 osteosarcoma cells grown from epithelial-like to fibroblast-like cells, and stimulated differentiation of leukemic cells along the macrophage path. Some cells of promyelocytic leukemia line HL-60, grown in the presence of FGI, were stimulated to differentiate and some underwent lysis. The response to FGI of cells from different patients varied.
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PMID:Fibroblast growth inhibitor. 322 59

The effect of interleukin 10 (IL-10) on proliferation and cytokine secretion by acute myelogenous leukemia (AML) blast cells was investigated in vitro. IL-10 inhibited spontaneous AML blast proliferation for a majority of patients, whereas in the presence of exogenous growth factors (granulocyte-stimulating factor, G-CSF; granulocyte-macrophage colony-stimulating factor, GM-CSF; interleukin 3) the IL-10 effect on blast proliferation showed a wide variation depending on the individual AML patient. IL-10 seemed to cause an irreversible inhibitory effect on AML blasts, as inhibition could also be demonstrated when IL-10 was present only during the initial preincubation of the leukemia cells. IL-10 also inhibited AML blast colony formation. However, independent of the effect on AML blast proliferation, IL-10 decrease cytokine secretion from AML blast cells for all patients, as demonstrated for IL-1 alpha, IL-1 beta, tumor necrosis factor-alpha, GM-CSF and interleukin 6. IL-10 did not inhibit development of apoptosis in AML blasts cultured in vitro. Expression of complement receptors and capability to adhere and internalize bacteria by AML blasts were not altered by IL-10.
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PMID:Effects of interleukin 10 on blast cells derived from patients with acute myelogenous leukemia. 747 83

The in vitro effect of the dextroisomer r-verapamil on blast cells derived from patients with acute myelogenous leukemia (AML) was studied. R-verapamil caused a dose-dependent inhibition of AML blast proliferation in the presence of stem-cell factor, leukemia inhibitory factor, interleukin 4, interleukin 6, and interleukin 10 when these cytokines were tested both alone and in different combinations. R-verapamil also inhibited the growth of clonogenic AML blast cells. The antiproliferative effect was not specific for AML blast cells, because r-verapamil also inhibited cytokine-dependent proliferation of blast cells derived from patients with acute lymphoblastic leukemia. The inhibitory effects of r-verapamil and anti-IL1 serum were additive, suggesting that the antiproliferative effect of r-verapamil does not depend solely on inhibition of IL1-mediated effects. Although r-verapamil inhibited spontaneous AML blast proliferation, for a majority of patients it caused only minimal, if any, inhibition of spontaneous cytokine secretion (IL1 alpha, IL1 beta, TNF alpha, IL6) by AML blast cells. Thus, although inhibition of IL1 effects may contribute in certain patients to the antiproliferative effect of r-verapamil, mechanisms other than IL1 inhibition seem to be more important in mediating the effects of r-verapamil.
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PMID:In vitro effect of r-verapamil on acute myelogenous leukemia blast cells: studies of cytokine secretion and cytokine-dependent blast proliferation. 749

Acute myelogenous leukemia is characterized by the infinite proliferation of malignant leukemia cells and by the impaired hematopoiesis. The proliferation of leukemia cells is supported by a small subpopulation, leukemic blast progenitors. Leukemic blast progenitors make leukemic blast colonies in methylcellulose culture. To determine the mechanism by which leukemia cells proliferate, we studied the role of several cytokines in the proliferation of leukemic blast progenitors in vitro. The findings indicated that there are at least three types in the regulation by cytokines of the leukemic cell growth. One is the stimulation of leukemic blast progenitors by colony-stimulating factors(CSFs) or interleukins(ILs) added in culture. These cytokines include granulocyte-CSF(G-CSF), granulocyte-macrophage CSF (GM-CSF), IL-3 and IL-1. The second is the autocrine growth mechanism. Leukemia cells by themselves produce and secrete G-CSF and GM-CSF, which stimulate the growth of leukemic blast progenitors. The third is a complex mechanism. IL-1, produced by leukemia cells or other cells, enhances the production of GM-CSF by leukemia cells, which stimulates the growth of leukemic blast progenitors. The precise mechanism by which each cytokine acts on leukemic blast progenitors should be determined to explore the mechanism of leukemia cell growth.
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PMID:[The role of cytokines in the proliferation of leukemia cells in acute myelogenous leukemia]. 750 32

Most human acute myeloid leukaemia (AML) cells have limited proliferative capacity, suggesting that the leukaemic clone may be maintained by a rare population of stem cells. This putative leukaemic stem cell has not been characterized because the available in vitro assays can only detect progenitors with limited proliferative and replating potential. We have now identified an AML-initiating cell by transplantation into severe combined immune-deficient (SCID) mice. These cells homed to the bone marrow and proliferated extensively in response to in vivo cytokine treatment, resulting in a pattern of dissemination and leukaemic cell morphology similar to that seen in the original patients. Limiting dilution analysis showed that the frequency of these leukaemia-initiating cells in the peripheral blood of AML patients was one engraftment unit in 250,000 cells. We fractionated AML cells on the basis of cell-surface-marker expression and found that the leukaemia-initiating cells that could engraft SCID mice to produce large numbers of colony-forming progenitors were CD34+ CD38-; however, the CD34+ CD38+ and CD34- fractions contained no cells with these properties. This in vivo model replicates many aspects of human AML and defines a new leukaemia-initiating cell which is less mature than colony-forming cells.
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PMID:A cell initiating human acute myeloid leukaemia after transplantation into SCID mice. 750 44

Laboratory studies have suggested that hematopoietic growth factors (GF), combined with cytosine-arabinoside (Ara-C) can enhance cytotoxic effects of this agent against acute myeloid leukemia (AML) cells. While clinical trials based on this growth factor/chemotherapy combination (GF/CT) are progressing with discordant results, further information regarding the underlying mechanisms have been reported supporting this rationale and requiring additional investigation. To assess the role of cytokinetic changes in the GF/CT strategy and to evaluate if chemotherapeutic agents regimens other than Ara-C, when combined with GF, can enhance their cytotoxic effects, we have primed AML blasts with two cytokine combinations and then exposed these cells to the S-phase specific agent Ara-C as well as to the phase non-specific drug daunorubicin (DNR) and to the alkylating agent 4-hydroperoxycyclophosphamide (4-HC). The two cytokine combinations used for priming AML blasts were: (i) interleukin-3 (IL-3) + granulocyte-macrophage colony-stimulating factor (GM-CSF) + granulocyte colony-stimulating factor (G-CSF); and (ii) GM + G-CSF. Cytokinetic analysis in ten AML samples and clonogenic growth of leukemic colonies (CFU-L) in methylcellulose were used to detect proliferative and cytotoxic effects on AML samples. We report that in AML clonogenic cell growth can be stimulated by cytokines in 50% of the samples (4/8), and that Ara-C sensitization clearly occurs in two out of these four samples. Among the different cytokine combinations tested, the one containing IL-3 was the most effective through a cytokinetic mechanism consistent with recruitment (averaged G0 decrease p = 0.04; S-phase increase p = 0.005). Furthermore we observed increased cytotoxicity also to the phase non-specific drugs DNR and 4-HC, which may be mediated by other mechanisms recently described. We conclude that GF/CT combinations may also be beneficial in regimens containing drugs other than Ara-C, used for AML treatment, including bone marrow transplantation conditioning regimens.
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PMID:Combination of hematopoietic growth factors containing IL-3 induce acute myeloid leukemia cell sensitization to cycle specific and cycle non-specific drugs. 751 44


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