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)

Tumor necrosis factor alpha (TNF-alpha) has been previously shown to modulate the expression of hematopoietic growth factor genes in monocytes and other mesenchymal cells. As acute myeloblastic leukemia (AML) blasts can express and produce hematopoietic growth factors, the influence of TNF-alpha on the accumulation of mRNAs for c-myc, interleukin-3 (IL-3), granulocyte-macrophage colony-stimulating factor (GM-CSF), G-CSF, IL-6 and IL-1 beta was evaluated in fresh blasts from 13 patients with AML. Total cellular RNA was extracted from blast cells cultured for 24 hours with or without TNF-alpha (500 U/ml). The c-myc transcript level was decreased by TNF-alpha treatment in 9/13 cases, and increased in only one case. Among the growth factor genes, the GM-CSF gene was more often and consistently influenced by TNF-alpha, increased levels of its transcript being observed in 6/13 cases following treatment with the cytokine; in no case was there a reduction of GM-CSF mRNA. G-CSF and IL-6 transcripts were more heterogeneously influenced, whereas the IL-3 transcript was never detected in our AML samples. The IL-1 beta message was present in 8/13 untreated and in 13/13 TNF-alpha treated samples. Moreover, in untreated cells, GM-CSF, G-CSF and IL-6 expression was always associated with IL-beta expression. These findings indicate that TNF-alpha can modulate the levels of growth factor transcripts in AML blasts, and raise questions about the effects of TNF-alpha on leukemic hematopoiesis, considering that TNF-alpha, IL-1 and GM-CSF can synergistically stimulate the growth of AML clonogenic cells.
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PMID:Tumor necrosis factor alpha modulates the messenger RNA expression of hematopoietic growth factor genes in fresh blast cells from patients with acute myeloblastic leukemia. 196 Oct 22

Granulocyte-macrophage colony-stimulating factor, (GM-CSF) was given at 8 micrograms/kg daily by continuous i.v. infusion for 72 h to six patients with acute myeloid leukemia (AML) in expansion and one with chronic myeloid leukemia in blastic crisis to determine whether it was possible to augment the proliferative activity of the neoplastic population. The percentage of marrow blasts in S phase (labeling index, LI) was increased in five patients (1.3-, 1.5-, 1.9-, 2.3- and 3.2-fold change). The increase in LI was similar 24 and 48 h after beginning GM-CSF. The RNA Index also increased in patients who showed an increased LI, suggesting that GM-CSF had recruited quiescent neoplastic cells into the cell cycle. Forty eight hours after beginning GM-CSF, chemotherapy was started. The fate of S phase cells, labeled in vivo with bromodeoxyuridine (BrdU) immediately before cytostatic treatment, was monitored. BrdU positive cells were identified by fluorescent antibody for up to 28 days. A preferential killing of BrdU (S phase) cells was observed in 5/7 patients who obtained a complete remission, whereas this was not apparent in the two patients who achieved only a partial remission. Chemotherapy induced a rapid and profound aplasia; its duration, however, was not significantly different from that observed in historical controls. GM-CSF may have a potential role in the treatment of AML, as this study shows that it recruits leukemic cells into the cell cycle without adversely prolonging aplasia after cycle-specific therapy.
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PMID:In vivo effect of granulocyte-macrophage colony-stimulating factor on the kinetics of human acute myeloid leukemia cells. 196 Oct 40

Based on in vitro data suggesting that recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) is capable of stimulating acute myeloid leukemia (AML) blast cells to become more sensitive to cell-cycle-specific drugs we conducted a phase I/II study in de novo AML patients (pts). rhGM-CSF (250 micrograms/m2/d, continuous intravenous infusion) was administered in 18 pts suffering from de novo AML in combination with standard induction chemotherapy (3 + 7 = daunorubicin 45 mg/m2 days 1 through 3, cytosine-arabinoside [Ara-C] 200 mg/m2 continuous infusion days 1 through 7). GM-CSF was started 48 or 24 hours before chemotherapy (prephase) in 14 pts. In four pts with high white blood cell counts (WBC) rhGM-CSF was started after chemotherapy-induced cell reduction (WBC less than 30,000/mm3). During prephase GM-CSF induced an increase in neutrophil and blast cell counts in 13 of 14 and 10 of 14 pts, respectively. In vivo recruitment of leukemic cells into drug-sensitive phases of the cell cycle could be demonstrated by multiparameter cell-cycle analyses in peripheral blood (n = 7) and bone marrow (n = 4) specimens. On day 14, complete aplasia was evident in 17 of 18 pts. GM-CSF was administered until recovery from chemotherapy-induced myelosuppression (absolute neutrophil counts, [ANC] greater than 500/mm3). Fifteen pts (83%) achieved complete remission, 12 did so with one cycle. A shorter duration of neutropenia was evident in these pts compared with historical controls (n = 39), (ANC greater than 500/mm3, day 22.5 +/- 3.4 v 25.2 +/- 3.7, P less than .05). Three pts achieved complete remission after a second cycle (same combination of rhGM-CSF and 3 + 7). Two pts died during bone marrow aplasia because of invasive pulmonary aspergillosis. Clinical side effects possibly related to GM-CSF, mainly fever, diarrhea, and weight gain were mild and tolerable (World Health Organization toxicity grade less than or equal to 2). Together, rhGM-CSF recruits kinetically quiescient AML cells in vivo to enter drug-sensitive phases of the cell cycle and promotes early myeloid recovery from aplasia after exposure to standard induction chemotherapy for AML.
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PMID:Recombinant human granulocyte-macrophage colony-stimulating factor in combination with standard induction chemotherapy in de novo acute myeloid leukemia. 199 13

Previous studies showed that factor-independent, late-passage HL60 acute nonlymphocytic leukemia (ANLL) cells proliferated in response to granulocyte-macrophage colony-stimulating factor (GM-CSF) after treatment with dimethylsulfoxide (DMSO) or other agents inducing cellular differentiation. In the present studies, we examined mechanisms of this response. After treatment with DMSO, GM-CSF delayed expression of some HL60 differentiation programs (CD11b expression), but not others (nitro blue tetrazolium dye reduction), and delayed the exit of cells from the cell cycle. In the presence of DMSO, GM-CSF but not granulocyte colony-stimulating factor (G-CSF) increased expression of steady-state c-myc RNA. DMSO-treated HL60 cells expressing heterologous epidermal growth factor (EGF) receptors also proliferated in response to EGF and showed increased c-myc expression. Nuclear transcription studies showed that GM-CSF did not alter c-myc transcription in DMSO-treated cells, and studies using actinomycin-D showed no increase in steady-state c-myc RNA half-life. These studies indicate that GM-CSF increases post-deterministic proliferation and alters the phenotype of differentiating HL60 cells, and post-transcriptional alterations in c-myc expression may be responsible for some of these changes. Heterologous EGF receptors mediate similar responses, suggesting that treating HL60 cells with DMSO may reveal a common pathway of growth factor gene regulation.
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PMID:Analysis of granulocyte-macrophage colony-stimulating factor action in differentiating myeloid leukemia cells: treatment with DMSO may reveal a common pathway for growth factor gene regulation. 199 12

A 78-year-old woman with acute myelogenic leukaemia (AML M5 (FAB)) was treated with standard induction chemotherapy followed by recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) (250 micrograms/m2/day) in an effort to accelerate neutrophil recovery. After 10 days of rhGM-CSF therapy, increasing numbers of promonocytes and monocytes were detected in the peripheral blood, with a maximum total white blood count of 14,900/microliters of which 39% were promonocytes, 39% monocytes, and only 3% neutrophils. The bone marrow during GM-CSF therapy was hypercellular and contained 95% monocytic forms. After discontinuation of rhGM-CSF, this monocyte lineage stimulation was completely reversible. Without further chemotherapy the patient entered a complete remission after 9 months and is now relapse free after 24 months. Since the stimulation was restricted to the previously leukaemic lineage of this patient, the profound monocytosis observed in this case suggests the possibility that GM-CSF may exert reversible effects on the proliferation of clonogenic cells in acute monocytic leukaemia.
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PMID:Reversible leukaemic regrowth under GM-CSF treatment after chemotherapy for AML. 199 44

In the present article, we show that 6 of 69 acute myelogenous leukemia (AML) samples exhibited autonomous in vitro growth that was dependent on endogenous granulocyte-macrophage colony-stimulating factor (GM-CSF). Cytoplasmic RNA harvested from all 6 leukemia specimens contained GM-CSF transcripts easily detectable by mRNA hybridization. All 6 GM-CSF-expressing leukemia samples simultaneously displayed high levels of transcripts for the c-fes proto-oncogene previously shown to be expressed in GM-CSF sensitive myeloid cells, whereas only 2 of the 48 AML samples not expressing GM-CSF accumulated c-fes mRNA. Seven of additional 14 GM-CSF-expressing specimens showed specific signals upon RNA hybridization with the c-fes probe, but failed to grow autonomously. These results suggest that c-fes and GM-CSF genes may be coordinately regulated in AML blasts and that GM-CSF-mediated growth autonomy may be linked to c-fes expression.
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PMID:Expression of the c-fes proto-oncogene in granulocyte-macrophage colony-stimulating factor-dependent acute myelogenous leukemia cells grown autonomously. 201 Jun 59

The common functional characteristics of granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-3 (IL-3) may be explained by the presence of a subpopulation of cell surface receptors capable of binding both growth hormones. A GM-CSF/IL-3 fusion protein (pIXY 321) was produced in a yeast expression host. Receptor binding studies with HL-60, JM-1, AML-193, and KG-1 cell lines suggested that the GM-CSF and IL-3 regions had adopted a native conformation within the fusion protein. The fusion protein also exhibited enhanced biologic activity compared with GM-CSF or IL-3 in assays of normal, primary human hematopoietic progenitor cells. pIXY 321 may offer significant clinical advantages over the individual cytokines.
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PMID:Hematopoietic effects of a granulocyte-macrophage colony-stimulating factor/interleukin-3 fusion protein. 201 72

Bryostatin 1 is a macrocyclic lactone which activates protein kinase C (PKC), and is able to induce maturation in cells from some cases of acute myelogenous leukemia. This paper reports that bryostatin inhibits the spontaneous in vitro proliferation of chronic myelomonocytic leukemia cells (CMMoL) in semi-solid medium at concentrations between 10(-8) and 10(-10) M. Growth inhibition was equivalent to or greater than that seen with phorbol-12-myristate-13-acetate. Bryostatin acted primarily as a cytotoxic agent, rather than as a cytostatic agent. The spontaneous in vitro proliferation of CMMoL cells is due to autocrine or paracrine secretion of granulocyte-macrophage colony-stimulating factor (GM-CSF). Bryostatin 1 actually increased GM-CSF secretion by CMMoL cells while inhibiting their proliferation. Bryostatin 1 also increased tumor necrosis factor alpha (TNF alpha) secretion by CMMoL cells, and in 2/5 cases the cytotoxic effect of bryostatin 1 on fresh CMMoL cells could be substantially reversed by the addition of antibody to TNF alpha to the culture medium. Bryostatin 1 may produce a cytotoxic effect on CMMoL cells in part by increasing the secretion of, or sensitivity to, TNF alpha, and may have therapeutic potential in CMMoL.
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PMID:Bryostatin 1: a potential anti-leukemic agent for chronic myelomonocytic leukemia. 202 97

Iodinated granulocyte-macrophage colony-stimulating factor (GM-CSF) was used to document the specific binding of GM-CSF to all acute myeloblastic leukemia (AML) samples examined in the present study. There was some heterogeneity in the number of GM-CSF binding sites per cell. To determine whether the low level of binding to some patient samples may be attributed to receptor occupancy by an endogenous source of GM-CSF, we devised an acid wash procedure that could remove surface-bound GM-CSF without affecting receptor properties. We thus document that GM-CSF specific binding to AML blasts before or after acid wash was the same, indicating that the observed heterogeneity in binding is not the result of receptor occupancy by an endogeneous source of GM-CSF. Saturation analyses are in favor of the presence of two classes of binding sites on AML blasts: a high-affinity receptor that binds GM-CSF with a dissociation constant (kd) of 3 to 73 pmol/L and a second class of low-affinity receptor that binds GM-CSF with a kd of 1 to 10 nmol/L. Binding studies with two established cell lines KG-1, and IRCM-8 also showed the presence of two classes of binding sites with high and low affinities. Analysis of GM-CSF titration curves in culture indicate that the median effective concentration required for stimulation of blast colony formation (EC50 = 5-36 pmol/L) were in the range of the kd of the high-affinity binding site, suggesting that this high-affinity binding site mediates the proliferative response.
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PMID:Characterization of granulocyte-macrophage colony-stimulating factor receptor on the blast cells of acute myeloblastic leukemia. 215 34

The growth of the human leukemia cell line AML-193 in a serum-free medium is strictly dependent on the presence of the cytokine granulocyte-macrophage colony-stimulating factor (GM-CSF), which is one of the major regulators of the myelomonocytic lineage. At present, little is known about the mechanisms by which this growth factor transduces the signal intracellularly. The results of this study demonstrate that GM-CSF needs the operation of a Na+/H+ exchanger, which is located in the plasma membrane of almost every vertebrate cell. In fact, the GM-CSF-dependent proliferation of AML-193 cells is strongly reduced in the presence of the amiloride analog EIPA, a specific inhibitor of the Na+/H+ exchanger. When acidified, AML-193 cells are able to recover the original pHi in a Na(+)-dependent and EIPA-inhibitable way; this demonstrates for the first time the presence of the Na+/H+ exchanger in these cells. Finally, GM-CSF, at doses superimposable to those needed for triggering proliferation, induces in AML-193 cells a sustained alkalinization, which is dependent on a operating Na+/H+ exchange, as it is inhibited by EIPA. These results suggest that GM-CSF, like other growth factors in other cell systems, exerts its mitogenic activity in AML-193 cells by inducing a Na+/H+ exchanger-mediated rise in pHi.
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PMID:Role of Na+/H+ exchange in the granulocyte-macrophage colony-stimulating factor-dependent growth of a leukemic cell line. 215 71

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