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)

In order to investigate the capability of cytokines to induce myeloid leukemia cells from G0 phase to the proliferative stage, blasts from 9 patients with AML and 1 patient with CML-MC were cultured with various cytokines (IL-3, GM-CSF, IL-3 + GM-CSF, G-CSF) for 48 hours or 96 hours in a serum-free culture system. Cells were analyzed by two-color flow cytometry, using PI and the monoclonal antibody Ki-67. The percentage of cells in G0 phase was reduced significantly when the cells were cultured with IL-3 (p < 0.01), GM-CSF (p < 0.01), and IL-3 + GM-CSF (p < 0.01) for 48 hours, as compared with the percentage of cells in G0 phase before culture. Moreover, the percentage of cells in S phase increased significantly when the cells were cultured with IL-3 (p < 0.01), GM-CSF (p < 0.02), and IL-3 + GM-CSF (p < 0.01) for 48 hours, as compared with the percentage of cells in S phase before culture. It is well known that many drugs which are widely used in the treatment of acute leukemia are cytotoxic mainly to proliferating cells, so that if quiescent G0 phase cells can be induced to the proliferative stage, the treatment of acute leukemia would become more effective. The present findings showed that a considerable variation was observed among individual patients in the induction of the G0 component to the proliferative stage.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Capability of various cytokines to induce quiescent myeloid leukemia cells to the proliferative stage. 128 63

In vitro proliferative response of the blast cells from 21 AML patients to hematopoietic growth factors (IL-3, GM-CSF, G-CSF and MCSF) was investigated. Proliferation of AML cells in the majority of cases was induced or promoted by one or more CSFs, among which the stimulation of IL-3 was the most effective. Spontaneous proliferation of the blast cells was also observed in half of the cases and could be inhibited as well as promoted by some CSFs. It is suggested that in vitro proliferation of AML cells varies from patient to patient and that CSF plays important roles in leukemogenesis.
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PMID:[Effects of various recombinant human hematopoietic growth factors on proliferation of blast cells in acute myeloid leukemia in vitro]. 128 86

Colony growth of leukemic colony-forming units (L-CFU) obtained from patients with primary acute myelogenous leukemia stimulated with recombinant human interleukin 3 (rh IL-3) is significantly potentiated when recombinant human tumor necrosis factor alpha (rh TNF-alpha) is present in cultures. The costimulatory activity of tumor necrosis factor (TNF) alpha is dose dependent and maximum at TNF-alpha concentrations of 10 ng/ml. At high density, L-CFU proliferatively respond to TNF-alpha stimulation in the absence of exogenous rh IL-3. Studies of the mechanism of action of rh TNF-alpha on acute myelogenous leukemia L-CFU growth suggest that TNF-alpha acts by inducing release of growth stimulatory hematopoietic cytokines by the leukemic cells themselves, including IL-1 alpha, IL-1 beta, Granulocyte-macrophage colony-stimulating factor (CSF), granulocyte CSF, and IL-6. Treatment of L-CFU cultures, with neutralizing antibodies to IL-1 alpha, IL-1 beta, granulocyte-macrophage CSF, granulocyte CSF, and IL-6 to eliminate the endogenous source of these factors is associated with significant inhibition of the synergistic interplay of TNF-alpha and IL-3.
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PMID:Synergy of interleukin 3 and tumor necrosis factor alpha in stimulating clonal growth of acute myelogenous leukemia blasts is the result of induction of secondary hematopoietic cytokines by tumor necrosis factor alpha. 137 6

Pretreatment of acute myeloblastic leukemia cells with the hemopoietic growth factor interleukin 3 (IL3) increased their susceptibility to lymphokine activated killing (LAK) but did not affect their constitutive resistance to native natural killer activity. In addition, IL3 treatment did not alter the LAK cell-mediated killing of CD34+ hemopoietic progenitors present in normal bone marrow. Increased 3H-thymidine uptake was generally observed after IL3 treatment. However, failure to proliferate in response to IL3, observed in some cases, did not prevent changes in LAK susceptibility. Enhanced lysis of IL3-treated leukemic cells was accompanied by a moderate increase of the effector-target binding. Increased LAK susceptibility was already observed at 18 h, while optimal cytolysis and expression of the cell adhesion molecule (CAM) LFA-3 (CD58) by IL3-treated AML cells were concomitantly observed at later culture times. In contrast, the CAM ICAM-1 (CD54) was not modulated by IL3, nor were significant changes in the expression of either CAMs observed in normal hemopoietic cells. Blocking experiments with the anti-CD58 monoclonal antibody demonstrated a variable neutralizing effect on the IL3-induced increase of LAK activity, depending on the leukemia cell studied. The effect described here, together with the known role of IL3 in normal hemopoiesis makes it a factor of potential therapeutic value for the treatment of leukemic patients.
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PMID:Effect of human interleukin 3 on the susceptibility of fresh leukemia cells to interleukin-2-induced lymphokine activated killing activity. 137 79

Stem cell factor (SCF) acts in concert with lineage-specific growth factors to stimulate the growth of hematopoietic colonies. To determine if neoplastic human hematopoietic cells would also respond to SCF, we cultured marrow mononuclear cells from 20 patients with newly diagnosed acute myelogenous leukemia (AML) and two normal donors with SCF, interleukin 3 (IL-3), granulocyte-macrophage colony-stimulating factor (GM-CSF), or combinations of growth factors in semisolid medium, and assessed colony growth. SCF receptors (c-kit receptors) were quantitated by equilibrium binding studies with 125I-SCF, and binding parameters were estimated using the ligand program. The cellular distribution of c-kit receptors was determined by autoradiography. Our results show that SCF alone or in combination with IL-3 or GM-CSF increased both the number and size of colonies in 10 of the patients. Receptors for SCF were identified on the blasts from all 20 AML patients. The number of receptors ranged from 600 to 29,000 per cell. In the majority of patients, both high- and low-affinity binding sites were identified. Neither the number of receptors per cell nor the finding of one or two classes of receptors correlated with growth response to SCF. Autoradiographic analysis of 125I-SCF binding to normal marrow mononuclear cells revealed grains associated with blasts and megakaryocytes. Grain counts on blasts from 10 AML patients and on normal marrow blasts suggested that high-affinity c-kit receptor expression on AML blasts is lower than or similar to that of normal blasts. These results identify c-kit receptors on human AML blasts, and indicate that SCF acts synergistically with IL-3 or GM-CSF to stimulate colony growth from the marrow cells of a portion of patients with AML.
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PMID:Blasts from patients with acute myelogenous leukemia express functional receptors for stem cell factor. 137 54

Stem cell factor (SCF) is a new growth factor acting on early hematopoietic progenitor and stem cells. In our experiments human recombinant SCF stimulated short-term proliferation of accessory cell-depleted acute myeloid leukemia (AML) cells in 13/14 cases, as determined by 3H-thymidine (3H-TdR) incorporation and cell counts. Stimulatory activity was significantly greater than in the presence of GM-CSF and was comparable to that of granulocyte colony-stimulating factor (G-CSF), interleukin 3 (IL-3), and 5637 cell line supernatant (SN). Conversely, the ability of SCF to induce primary colony formation by AML clonogenic cells (CFU-L) was lower than that of granulocyte-macrophage colony-stimulating factor (GM-CSF) and 5637 SN in all but four cases. However, SCF potentiated the stimulatory effect of GM-CSF, G-CSF, and IL-3 on both 3H-TdR incorporation and colony formation. In a 7-day liquid culture SCF enhanced CFU-L recovery in all cases to a significantly greater extent than the other growth factors. A further increment was obtained by combinations of SCF with GM-CSF, G-CSF, or IL-3, and this was significantly more effective than 5637 SN. SCF did not induce leukemic cell differentiation. Human recombinant SCF is therefore highly efficient in stimulating AML cell proliferation and expanding the CFU-L pool. It was not, however, able to support long-term growth of AML cells (beyond 2-7 weeks) in five cases tested.
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PMID:Human recombinant stem cell factor stimulates in vitro proliferation of acute myeloid leukemia cells and expands the clonogenic cell pool. 137 62

We carried out an in vitro study on the combined effects of three CSF (G-CSF, GM-CSF and IL-3) plus the cycle-specific chemotherapeutic drugs [cytosine arabinoside (Ara-C) and daunorubicin (DNR)] on the proliferation and cytotoxicity of blasts and clonogenic cells (CFU-AML) in the AML-193 cell line, in AML patients and in normal bone marrow CFU-GM. The number of surviving blasts and/or DNA synthesis in blasts treated with CSF plus Ara-C or DNR was greater than those treated without CSF in the AML-193 cell line, and in some AML patients. On the other hand, the Ara-C- and DNR-mediated cytotoxicity of CFU-AML was not abrogated by CSF in any instance, but rather, it was significantly enhanced by all the CSF in the majority of instances. Although the enhancement was clearer when Ara-C was used, compared with DNR, there were no significant differences among the enhancing effects of the CSF. Under the same culture conditions as those for CFU-AML, all of the CSF significantly enhanced the Ara-C-mediated cytotoxicity of day 7 normal CFU-GM, although to a lesser extent than in CFU-AML. However, none of the CSF significantly affected the Ara-C-mediated cytotoxicity of day 14 normal CFU-GM or the DNR-mediated cytotoxicity of day 7 or day 14 normal CFU-GM. These results suggest that in the selection of a strategy entailing combined use of cycle-specific drugs plus CSF to increase the antileukemic effectiveness of chemotherapy in AML, G-CSF is preferable to GM-CSF or IL-3, since it has fewer potential clinical side effects, and that, furthermore, DNR may be as useful as Ara-C.
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PMID:Comparative effects of G-CSF, GM-CSF and IL-3 on cytosine arabinoside- and daunorubicin-mediated cytotoxicity of acute myeloid leukemia cells and normal myeloid progenitors. 139 3

Loss of a whole chromosome 5 or deletion of 5q are recurring abnormalities in malignant myeloid neoplasms. Chromosomal loss or deletion are the hallmarks of tumour suppressor genes, suggesting that a gene(s) located on 5q may function as a leukaemia suppressor gene. To determine the location of genes on 5q that may be involved in myeloid leukaemogenesis, we examined the breakpoints of the del(5q) in a series of 117 patients with malignant myeloid diseases. By comparing the breakpoints, we identified a small segment of 5q, consisting of band 5q31, that was deleted in each patient. This segment has been termed the critical region. A striking number of genes encoding haematopoietic growth factors have been mapped within or adjacent to the critical region. These include the genes encoding CSF-2, IL-3, IL-4, IL-5 and IL-9. By using fluorescence in situ hybridization, we have refined the localization of these genes to 5q31.1. To facilitate the identification of a tumour suppressor gene on 5q, we are currently preparing a physical map of 5q31. With FISH analysis of a series of cosmid and phage clones, we identified a number of clones within 5q31. By hybridizing these probes to metaphase cells with a del(5q) involving proximal or distal breakpoints within 5q31, we have narrowed the critical region to a small segment of 5q31 containing eight of the cosmids. In addition, we found that the five growth factor genes are excluded from this region. We have used dual colour FISH to determine the order of these cosmids, the order of the known genes mapped to 5q23-33 and the relationship of these genes to the critical region. To date, mutations of these genes in leukaemia cells have not been identified. The clinical features of myeloid diseases associated with a del(5q) are variable (RA 5q- syndrome v. AML); thus, once the involved gene is identified, it will be important to determine whether the same gene is involved in both types of myeloid disorders.
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PMID:Deletions of chromosome 5 in malignant myeloid disorders. 145 Nov 9

Murine radiation-induced acute myeloid leukemia (RI-AML) may be considered as the experimental counterpart of human secondary leukemia. Three new myelomonocytic cell lines derived from RI-AML and carrying a partially deleted chromosome 2 are described. The RI-AML cells responded with increased proliferation after being incubated with the hemopoietic growth factors rG-CSF, rGM-CSF and IL-3. Increased proliferation of the same extent without any effect in differentiation, was also demonstrated in the RI-AML cells after incubation with IL-6 and with mouse lung conditioned medium (CM) and Krebs ascites tumor cells CM which induce differentiation in normal and most leukemic myeloid cells. Down-regulation of the c-myc gene and induction of (2'-5') oligo-adenylate synthetase (reflecting autocrine interferon secretion), two essential mechanisms operating during arrest of growth and concomitant differentiation, were demonstrated to be absent in RI-AML cells. In contrast, the M1 cells responded to the above differentiating factors with growth arrest and differentiation and with appropriate c-myc down-regulation and synthetase induction. The genetic basis for the distinct RI-AML cells' behavior may be connected with the loss or structural and/or functional abnormalities of DNA sequences located in the deleted part of chromosome 2 or in the respective allele. The presently described new RI-AML cell lines may be used for studies concerning myeloid leukemogenesis in general and secondary leukemia in particular.
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PMID:Absence of negative growth regulation in three new murine radiation-induced myeloid leukemia cell lines with deletion of chromosome 2. 145 74

The tetrapeptide acetyl-N-Ser-Asp-Lys-Pro (AcSDKP) inhibits the entry into DNA synthesis of murine spleen colony-forming units (CFU-S) and protects these cells during chemotherapy. This synthetic peptide also inhibits the growth of normal human marrow progenitors granulocyte-macrophage colony-forming units (CFU-GM) and erythroid burst-forming units (BFU-E) and decreases their percentage in DNA synthesis at nanomolar concentration. In view of its clinical application as a marrow protector, we have investigated its effects on malignant cells. Studies were carried out on HL-60 cells and on fresh leukemic cells from patients with either chronic myeloid leukemia (CML) or acute myeloid leukemia (AML). Results showed that AcSDKP, whatever the doses used, did not modify the proliferation of both HL-60 cells and AML cells even when enhanced by stimulating factors such as interleukin 3 or granulocyte-macrophage colony-stimulating factor (GM-CSF). In addition, no change in the number and the percentage in S-phase of both HL-60 clonogenic cells and CML progenitors was observed. Our data clearly demonstrate that the tetrapeptide AcSDKP was ineffective on leukemic cells and therefore by acting selectively on normal progenitors represents a potent therapeutical agent for the protection of normal bone marrow progenitors during chemotherapy.
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PMID:The tetrapeptide AcSDKP, an inhibitor of the cell-cycle status for normal human hematopoietic progenitors, has no effect on leukemic cells. 154 96


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