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)

We describe monoclonal antibodies (mAbs: anti-MaG-1, TGI-1, TGI-5, and TGI-6) that block the proliferation of AML-193 cells in response to GM-CSF or IL-3 and do not affect the proliferation of AML-193 cells in response to G-CSF and IL-2-driven proliferation of Kit 225 cells. However, none of the mAbs tested had any stimulative effect on the proliferation of AML-193 cells. The mAbs (anti-MaG-1, TGI-1, -5, and -6) could inhibit the binding of [125I]GM-CSF to AML-193 cells. We were able to purify MaG-1 Ag by anti-MaG-1 affinity chromatography. Thus, the MaG-1 Ag and the Ags recognised by mAbs (TGI-1, -5, and -6) may be associated with the receptor for GM-CSF or IL-3 or a structure close to the receptor for GM-CSF or IL-3.
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PMID:Monoclonal antibodies that specifically inhibit GM-CSF- and IL-3-dependent growth of human monocytic leukemia cells. 256 Sep 32

The effects of recombinant human interleukin 3 (IL3) on normal bone marrow cells and human leukemic cells were studied. In clonal assays, IL3 supported the growth of all colony types including megakaryocytes. Erythroid colonies were formed in the presence of IL3 and erythropoietin, but not in the absence of erythropoietin. Replating experiments using blast cell colonies derived from a cell population enriched for progenitor cells by fluorescence-activated cell sorting with the monoclonal antibody 3C5, showed that IL3 supported the continued replating of colonies. The clonal proliferation of human bone marrow cells in response to IL3 was inhibited by tumor necrosis factor and by lymphotoxin, but not by interferon-gamma. In suspension cultures, IL3 supported the proliferation of mast cells. Human IL3 had no effect on the growth responses, morphology, cytochemistry, or clonogenicity of the human leukemic cell lines HL60, U-937, KG1a, and HEL. Transcripts for IL3 mRNA were not detectable in these cells, nor in the K562 cell line, implying that autocrine secretion of IL3 was not the mechanism by which these leukemias were maintained. Although cells derived from the bone marrow or peripheral blood of twenty patients with myeloproliferative disorders, myelodysplastic syndromes or acute myeloid leukemia frequently showed proliferative responses to IL3, mRNA transcripts for IL3 were not detected in these cells.
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PMID:Human interleukin 3: effects on normal and leukemic cells. 262 75

A patient with M2-ANLL and a 46,XX,del(5)(q22q33), t(2;11)(p21;q24) karyotype is described. The diagnosis was made after a short period of myelodysplastic syndrome. After chemotherapy consisting of Daunorubicin and Arabinosylcytosine in continuous infusion, the patient reached a complete remission. The chromosome pattern described here has been observed in two other patients with refractory anemia and refractory anemia with excess of blasts, respectively. The breakpoints on the chromosomes 2, 5 and 11 allow us to hypothesize the involvement of N-myc, c-fms, GM-CSF and IL-3 genes.
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PMID:5q- and t(2;11) in a patient with M2 acute non-lymphocytic leukemia. Case report. 262 43

Recombinant human (rh) interleukin-6 (IL-6), in a dose range of 1 to 10 U/mL, was able to induce a low number of neutrophilic-granulocytic colonies in a CFU-GM clonogenic assay, using T cells and adherent cells, depleted low density marrow cells. A synergistic increase in the number of granulocytic colonies was observed when rhGM-CSF at suboptimal doses and IL-6 at effective doses were both present in the assay; the increase was only additive when either rhIL-1 alpha or rhIL-3 was used together with IL-6. To determine whether the increase in colony number reflects the interactions of these factors on the same hematopoietic progenitor target cells or, instead, represents activation of accessory cells, we analyzed the effect of IL-6 on the proliferation and differentiation of three growth factor-dependent leukemic cell lines that respond with continuous proliferation to the presence of GM-CSF and IL-3 in culture. One of the three cell lines (AML-193) showed limited proliferation in the presence of IL-6 followed by terminal differentiation after 14 days into basophilic-granulocytic-like cells. A synergistic proliferative response was observed on the same cells treated with both GM-CSF and IL-6. These data support the hypothesis that IL-6 may have a direct effect on myeloid hematopoietic progenitor cells, and that GM-CSF interacts synergistically with IL-6 by acting on the same target cells.
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PMID:Human interleukin-6 supports granulocytic differentiation of hematopoietic progenitor cells and acts synergistically with GM-CSF. 264 83

The abilities of human recombinant IL-3, GM-CSF, G-CSF, M-CSF and Epo to induce maturation in human AML cells in vitro were investigated using cell specimens from 25 AML patients. The experiments were carried out under exactly defined serum-free culture conditions. In the absence of CSFs, monocytic and/or granulocytic maturation was detected in 14/25 cases. IL-3, GM-CSF, G-CSF and M-CSF elevated the proportions of monocyte/macrophages in 3/25, 2/25, 1/25 and 6/25 cases respectively, and increased the percentages of mature granulocytes in 2/25, 1/25, 1/25 and 0/25 cases, and if so only to a limited extent (values below 50%). The 3H-thymidine (3H-TdR) uptake studies revealed that IL-3, GM-CSF, G-CSF and M-CSF were efficient stimulators of DNA synthesis of AML cells in 19, 15, 13 and four of those cases, respectively. Thus, although the cells in most cases responded to CSFs by activation of DNA synthesis, they were unable to give rise to terminally differentiated stages. Provision of CSFs in combination was more frequently effective in enhancing maturation and also increased the magnitude of maturation response. Monocytic versus granulocytic maturation of AML cells after culture did not correlate with the FAB cytology nor with the type of CSF presented; but generally granulocytic maturation was an infrequent phenomenon. Epo stimulated erythroid differentiation and DNA synthesis only in the case of erythroleukaemia, but it had no effect on the cells of 10 other AML cases. Extrapolation of these in vitro findings would suggest that CSFs would have a limited therapeutic utility to induce AML cell maturation in vivo and that hazards of stimulating blast cell proliferation with these factors may be anticipated.
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PMID:Maturation of human acute myeloid leukaemia in vitro: the response to five recombinant haematopoietic factors in a serum-free system. 264 40

TNF-alpha has been shown to antagonize the proliferative effects of growth factors present in crude conditioned media from PHA-stimulated leukocytes or cell lines on the clonogenic cells of acute myeloblastic leukemia (AML) (19,21). In the present study, we investigated the responses of AML blasts to TNF-alpha in the presence of defined growth factors (recombinant granulocyte/macrophage-CSF [rGM-CSF], recombinant granulocyte-CSF [rG-CSF], rIL-3, and rIL-1) and under conditions described for autocrine stimulation (32). While TNF-alpha antagonized the stimulatory effects of G-CSF and IL-3 on blast progenitors, TNF-alpha did not affect blast colony formation in the presence of IL-1. Unexpectedly, TNF-alpha significantly enhanced blast proliferation in the presence of GM-CSF. Further, TNF-alpha also acted synergistically with an endogenous source of growth stimulatory signal to promote proliferation of blast clonogenic cells. Thus, on human leukemic cells, TNF-alpha appears to be a molecule that is at least bifunctional, having the ability to either support or inhibit cell proliferation, depending on the other growth factors present. It is postulated that the proliferative response of blast progenitors to TNF-alpha under conditions that favor autocrine stimulation may represent one property that allows the cells to escape from negative regulation and proliferate in AML.
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PMID:Tumor necrosis factor alpha stimulates the growth of the clonogenic cells of acute myeloblastic leukemia in synergy with granulocyte/macrophage colony-stimulating factor. 266 67

The chromosome alterations specifically associated with leukaemia are found largely in the regions where the genes for the haemopoietic growth factors (as well as other regulatory molecules or their receptors) are located, indicating a crucial role of the growth factors in leukaemogenesis. However, growth factor genes per se do not generally induce leukaemia when inserted into normal haemopoietic cells, although they will do so if they are inserted into immortalized haemopoietic stem cell lines. The response of AML cells to these growth factors is extremely heterogeneous, and the tilting of the balance between self-reproduction (leading to perpetuation of the leukaemic process) and differentiation ('death' of the malignant cells) depends on several parameters, on the type and combination of factors to which the cells are exposed, with IL-3 and GM-CSF tending to favour self-renewal, and G-CSF and M-CSF tending to favour differentiation. These findings open the possibility to consider the use of growth factors to control the leukaemic process, although such treatment should be approached with considerable caution, and on an individual patient basis.
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PMID:Haemopoietic growth factors: their role in acute myeloblastic leukaemia. 268 18

It has been postulated that the disruption of the normal hormonal regulation of blood cell formation and proliferation leads to the autonomous growth of hematopoietic progenitors or stem cells and thus to leukeamia. We have utilized established hematopoietic cell lines to establish the different mechanism by which growth autonomy is acquired. The analysis of thirteen spontaneous factor-independent mutants revealed that the majority (12/13) secreted a factor that stimulated growth of the parental cell line. Thus, autocrine stimulation may be a important mechanism by which normal growth control is disrupted. This is supported by the observation of Young and Griffin (1987) that some cells isolated from patients with acute myeloblastic leukemia (AML) autogenously produce growth factor. In the majority of Dind mutants more closely examined, growth factor gene activation was due to the juxtapostion of a retrotransposon. Although the exact nature of the involvement of human retroviruses in inducing leukemia has not been elucidated, one could envisage that altered growth factor regulation due to integration of the virus may play an important role. The existence of a second class of Dind mutants that have obtained factor-independence by a mechanism not involving factor production concurs with the acquisition of factor-independent growth in hematopoietic cells after introduction of some oncogenes. Several models have been proposed to explain how oncogenes may "short circuit" and thus activate the normal signal transduction pathway by mimicking the active receptor, transducer, or effector (Weinberg, 1985). To investigate more closely the role of autocrine stimulation in the induction of growth autonomy and tumorigenicity, retroviral vectors expressing either GM-CSF or IL3 were introduced into factor-dependent hematopoitic cell lines. Non-linear clonability of infected cell lines in the absence of exogenous growth factor and inhibition of proliferation by antiserum supported a model of autocrine stimulation. However, a secondary event, correlated with amount of factor released, often occurred that abrogated the requirement for secreted CSF. Growth of cells in which this alteration had occured was cell-density independent and could not be blocked by antibody. It has been postulated that autogenous factor may react with its receptor intracellularly (Lang et al., 1985). The results presented here cannot exclude that the secondary events may allow the internal interaction of receptor and factor.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Conversion of factor-dependent myeloid cells to factor independence: autocrine stimulation is not coincident with tumorigenicity. 273 34

Interleukin-4 (IL-4) is a potent mediator of growth and differentiation of cells of several hematopoietic lineages. Interleukin-5 (IL-5) is a lineage-specific hematopoietic growth factor that stimulates the production of eosinophils and eosinophil colonies from normal human bone marrow cells. By using somatic cell hybrids and in situ chromosomal hybridization, we localized the IL-4 and IL-5 genes to human chromosome 5 at bands q23-31, a chromosomal region that is frequently deleted [del(5q)] in patients with myeloid disorders. By in situ hybridization, the IL-4 and IL-5 genes were found to be deleted in the 5q- chromosome of four patients with refractory anemia (RA) or therapy-related acute nonlymphocytic leukemia (t-ANLL), who had a del(5q). Thus a small segment of chromosome 5 contains IL-4, IL-5, IL-3, and GM-CSF as well as other genes such as CD14 and EGR1. Our findings that each of these genes was deleted in the 5q- chromosome suggest that loss of function of one or more of these genes may play an important role in the pathogenesis of hematologic disorders associated with a del(5q).
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PMID:Interleukin-4 and interleukin-5 map to human chromosome 5 in a region encoding growth factors and receptors and are deleted in myeloid leukemias with a del(5q). 278 63

The conditioned media of 34 human tumor cell lines were screened for the ability to induce granulocyte-macrophage colonies in vitro in bone marrow cultures, to stimulate proliferation of a murine IL-3 dependent hemopoietic cell line (32D clone 3) and to stimulate thymidine incorporation in suspension cultures of acute myelogenous leukemia cells. Twelve tumor cell lines produced factors that were active in these assays. The conditioned medium of the glioblastoma cell line U87 MG was characterized in detail and found to contain G-CSF and GM-CSF. Cloning and sequencing of the U87 MG G-CSF indicated that it was derived from G-CSF b mRNA, which encodes a protein with a deletion of 3 amino acids at residues 36-38. The gene for G-CSF was mapped to human chromosome 17 band q21, a region involved in translocations frequently found in acute promyelocytic leukemia. G-CSF (U87MG) was able to induce granulocytic differentiation of the total population of a murine IL-3 dependent cell line, 32D clone 3; this effect was antagonized by IL-3. GM-CSF (U87-MG) supported the proliferation without inducing differentiation of two growth factor-dependent leukemic cell lines, TALL 101 and AML-193.
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PMID:Tumor-derived growth factors that support proliferation and differentiation of normal and leukemic hemopoietic cells. 283 Aug 26


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