Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04141 (granulocyte-macrophage colony-stimulating factor)
6,790 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The actions and interactions of purified recombinant human (rh) interleukin 4 (IL-4) and granulocyte colony-stimulating factor (G-CSF) on the clonogenicity of human leukemic cell line U937 were studied in vitro. Parameters analyzed were the suppression of stem cell generation using sequential clonal cultures, alterations of surface antigen expression, and morphological changes. IL-4 alone (10 U/ml) and G-CSF alone (1000 U/ml) only slightly reduced colony numbers (80% +/- 7% and 87% +/- 7% of control colonies, respectively). However, IL-4 interacted synergistically with G-CSF to further reduce the colony number (46% +/- 8% of control colonies) and suppress the self-renewal ability (clonogenicity) of U937 cells. This synergistic effect was not eliminated by cultures containing neutralizing concentrations of anti-granulocyte-macrophage colony-stimulating factor (anti-GM-CSF), anti-interleukin 6 (anti-IL-6), anti-interferon-alpha (anti-IFN-alpha), anti-IFN-gamma, anti-transforming growth factor-beta (anti-TGF-beta) serum, and anti-tumor necrosis factor-alpha (anti-TNF-alpha) serum. The coexistence of IL-4 and G-CSF was required for at least 48 h to reveal the synergistic action as assessed by preincubation and delayed addition experiments. Combinations of IL-4 and G-CSF showed a significant increase in CD11b expression on U937 cells. This action was not observed with HL60, K562, ML-1, or KG-1 leukemic cell lines, and IL-4 did not show any synergistic suppression of clonogenicity of U937 leukemic cells in combination with other cytokines tested in this study. These results suggest that IL-4 in combination with G-CSF may have some capacity to synergistically suppress human leukemic cells of specific types with loss of clonogenicity.
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PMID:Synergistic suppression of the clonogenicity of U937 leukemic cells by combinations of recombinant human interleukin 4 and granulocyte colony-stimulating factor. 138 97

Non-adherent cord blood and bone marrow mononuclear cells were analyzed by multiparameter flow cytometry before and at day 2, 4, 7, and 11 of culture in recombinant interleukin 3 (IL-3) and granulocyte colony-stimulating factor (G-CSF, cord blood) or stem cell factor (SCF), IL3 and granulocyte-macrophage colony-stimulating factor (GM-CSF, BM) to assess the differentiation and maturational pathway of myeloid cells. Before cell culture cord blood contained progenitor cells (CD34+) in various differentiation stages (CD38(-)----CD38bright), mature lymphocytes, monocytes, and neutrophils, but no immature neutrophils and immature monocytes. During cell culture, all CD34+ cells acquired the CD38 antigen between day 2 and 5 of cell culture, the CD34 antigen was lost between day 5 and 11 of cell culture. Differentiation of cells into the myeloid cell lineage was characterized by the acquisition of both CD33 and CD71. The latter is indicative for the active proliferation of these cells. Maturation of the cells into the neutrophilic pathway was indicated by the acquisition of first the CD15 antigen followed by CD11b and CD16 respectively. Whereas maturation of the cells into the monocytic pathway was indicated by the acquisition of first CD11b followed by CD14 and a dim expression of both CD15 and CD16. In normal bone marrow, cells of various maturational stages are already present before cell culture. During cell culture differentiation of cells into the myeloid lineage and maturation of the cells along the monocyte and neutrophilic lineage followed identical pathways as was observed before cell culture. Differentiation and maturational pathways of cord blood and adult bone marrow were identical. The results confirm the surface-antigen-defined pathways of myeloid cell differentiation described previously for non-cultured normal bone marrow aspirates. The detailed assessment of cell maturation and differentiation of cultured cells by multidimensional flow cytometry permits the determination of the specific effects of various recombinant human growth factors on myeloid cells.
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PMID:Differentiation and maturation of growth factor expanded human hematopoietic progenitors assessed by multidimensional flow cytometry. 140 53

This paper reviews the role of pharmacokinetic methods in the clinical use of carboplatin. Published data establish that pretreatment renal function is the most significant determinant of carboplatin pharmacokinetics. Evidence suggests that the area under the plasma concentration versus time curve (AUC) correlates well with hematologic toxicity. Published data also suggest that a relationship exists between the AUC and therapeutic outcome in testicular teratoma and in ovarian cancer, although in the latter case the data are not conclusive. It is suggested that pharmacokinetically based dosing schemes may be advantageous and that randomized trials should be performed to test this hypothesis. In some clinical situations where dose prediction is not feasible, a simple therapeutic drug-monitoring strategy may prove useful. Since the toxicities of carboplatin are mainly hematologic, it has been possible to study the use of high-dose carboplatin with various forms of hematologic support. Carboplatin doses have been increased fourfold to sixfold and high response rates have been reported in ovarian cancer. An overall therapeutic advantage for this strategy has not yet been demonstrated in a randomized setting. Published data on ovarian cancer cell lines suggest that the range of sensitivities encountered is very large (30- to 100-fold). If the range of sensitivities found in vivo is equally large, then a clinical dose escalation of 10- to 100-fold may be necessary to produce a curative therapy for this disease. The investigation of the use of hematopoietic growth factors in association with carboplatin has just begun. Early data suggest that some support of the WBC count may be achieved, but the toxicities of granulocyte-macrophage colony-stimulating factor have themselves been a problem. Our own studies will attempt to achieve a substantial escalation in the administered AUC of carboplatin by increasing the frequency of carboplatin dosing, while administering granulocyte colony-stimulating factor and platelet support.
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PMID:Future directions with carboplatin: can therapeutic monitoring, high-dose administration, and hematologic support with growth factors expand the spectrum compared with cisplatin? 141 27

Human granulocyte-macrophage colony-stimulating factor (GM-CSF) has been described as a multi-lineage growth factor that induces in vitro colony formation of bone marrow erythroid burst-forming units (BFU-E), multipotential colony-forming units (CFU-GEMM), granulocyte-macrophage CFU (CFU-GM), granulocyte CFU (CFU-G), macrophage CFU (CFU-M), as well as eosinophil colony-forming units (CFU-Eo). Because of the preeminent role of the liver in fetal hematopoiesis, the effect of human recombinant GM-CSF (hrGM-CSF) on hematopoietic cells isolated from human fetal liver was tested in liquid cultures and in semisolid colony assays. hrGM-CSF induced a significant increase in the number of mature eosinophils in liquid culture and to a lesser extent in semisolid cultures when compared to untreated culture controls. The kinetics of this effect on eosinophils reached its peak on day 21 of culture. When GM-CSF and erythropoietin (Ep) were added simultaneously to the cultures, no significant change in the number of eosinophils compared to hrGM-CSF alone was observed. Ep or granulocyte colony-stimulating factor (G-CSF) did not show any CFU-Eo activity when added separately or simultaneously to both liquid and semisolid cultures. These results indicate that hrGM-CSF alone may be a potent stimulating factor for CFU-Eo obtained from human fetal liver and, in combination with other growth factors, control optimal development of human fetal eosinophils.
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PMID:GM-CSF induces eosinophilic cell growth-promoting activity on human fetal liver cells. 152 2

During the myeloid blast crisis (BC) of chronic myelogenous leukaemia (CML) non-random additional chromosome abnormalities occur in over 80% of patients. However, these cytogenetic changes have been reported to precede the clinical signs of CML-BC by several months to years suggesting that other biological events may participate in the multistep process of acute transformation of CML. The autocrine production of growth factors has been recently shown to occur in several haematological malignancies and particularly in acute myeloblastic leukaemia (AML). In the present report we demonstrate that IL-1 beta gene is expressed in almost all cases of CML in myeloid blast crisis. The secretion of IL-1 from CML blasts in culture supernatants was confirmed in all five of the patients we studied. A high proportion of cases showed constitutive expression of the M-CSF gene and many of the same patients often had a simultaneous co-expression of the proto-oncogene c-fms which encodes for the M-CSF receptor. After exposure of leukaemic cells to phorbol myristate acetate (PMA), release of M-CSF protein was documented in three of five patients studied. No significant interleukin-3 (IL-3), granulocyte-macrophage colony-stimulating factor (GM-CSF) or granulocyte colony-stimulating factor (G-CSF), was detected in these patients demonstrating that a different pattern of growth factors secretion exist in AML and CML, where distinct molecular events are likely involved in the control of leukaemic proliferation.
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PMID:Constitutive expression of IL-1 beta, M-CSF and c-fms during the myeloid blastic phase of chronic myelogenous leukaemia. 153 85

Morphological and immunohistochemical analyses have documented the development of an acute inflammatory response, marked by the early appearance of granulocytes and later infiltration of mononuclear cells, in the uterus immediately after mating in mice. The response peaked on Day 1 and subsided by Day 3. In the present study, RNAs for macrophage colony-stimulating factor (CSF-1) and granulocyte-macrophage colony-stimulating factor (GM-CSF) and for interleukin 1 alpha (IL-1 alpha), IL-1 beta, interleukin 6 (IL-6) and tumour necrosis factor alpha (TNF-alpha) were detected in uterine tissue on Day 1. With the exception of IL-6, which was higher on Day 3 than on Day 1, and IL-1 alpha, which was not reduced on Day 2, concentrations of cytokine mRNA decreased to Day 3. No bioactivity was detected for GM-CSF, granulocyte colony-stimulating factor or IL-3, but CSF-1, IL-1, IL-6 and TNF-alpha were detected on Day 1 using bioassays. Changes in concentrations approximately paralleled those for mRNA. The concentrations of mRNA for CSF-1, IL-1, IL-6 and TNF-alpha were higher on Day 1 of pregnancy than in the uteri of cycling mice 24 h earlier. The data are consistent with previous morphological observations demonstrating the expression of an acute inflammatory response in the mouse uterus after mating. Further, the data demonstrate the expression of genes for CSF-1, GM-CSF, IL-1 alpha, IL-1 beta, IL-6 and TNF-alpha is induced in the uterus during mating.
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PMID:Expression of colony-stimulating factors and inflammatory cytokines in the uterus of CD1 mice during days 1 to 3 of pregnancy. 155 82

Hematopoietic growth factors, particularly granulocyte colony-stimulating factor and granulocyte-macrophage colony-stimulating factor, can be used as supportive agents to enhance bone marrow recovery after the administration of myelosuppressive chemotherapy given for nonmyeloid neoplasms. The use of these agents in the treatment of acute myeloid leukemia and myelodysplastic syndrome poses novel opportunities and challenges due to their direct effects on the neoplastic cells, which represent the transformed counterparts of normal hematopoietic stem cells. The interaction between hematopoietic growth factors and leukemic progenitor cells bearing a specific receptor for a given agent would be expected to result in proliferation, although maturation induction could occur. Hematopoietic growth factors have been employed as primary differentiating agents in myelodysplastic syndrome and as supportive agents after chemotherapy in acute myeloid leukemia. In either case, close monitoring for evidence of leukemic stimulation is required. Alternatively, pretreatment with colony-stimulating factors could induce cell cycling, thereby making the leukemic cells more susceptible to S-phase-specific chemotherapeutic agents, such as cytarabine.
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PMID:Hematopoietic growth factors and leukemia. 159 Dec 93

Granulocyte colony-stimulating factor (G-CSF) and granulocyte-macrophage colony-stimulating factor (GM-CSF) generally are rapidly eliminated from the blood after intermittent intravenous infusion. Subcutaneous administration of these agents results in lower peak concentrations but is associated with prolonged systemic exposure. Elimination of the factors appears to occur by several mechanisms, including white blood cell receptor-mediated endocytosis, metabolism by proteases, and urinary excretion by glomerular filtration with subsequent reabsorption and catabolism. The pattern and route of elimination are affected by type of factor and dosage, degree of glycosylation, renal function, and number of white blood cell receptors for the particular CSF. Granulocyte CSF and GM-CSF are approved for use in patients with nonmyeloid malignancy who are receiving myelosuppressive chemotherapy, and those undergoing high-dose chemotherapy and bone marrow transplantation, respectively. In these indications, treatment generally is initiated no earlier than 24 hours after chemotherapy and continued beyond the expected chemotherapy-associated neutrophil count nadir. Limited information suggests that subcutaneous administration is more effective than intermittent intravenous infusion. The latter may require the addition of albumin to ensure stability. Storage and handling guidelines include preventing exposure to extreme temperatures and avoiding excessive agitation of the solution.
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PMID:Pharmacokinetics and administration of colony-stimulating factors. 159 12

The 'Workshop on Growth Factors' which took place at the Lugano Lymphoma Conference on June 8, 1990, included a presentation by Michael Sporn on the concept that loss of inhibitory control mechanisms may be important in the development and growth of human cancer. Examples illustrating this were taken from current experimental biology research into transforming growth factor beta (TGF-beta) interactions. Brian Durie presented recent data on the biology of interleukin-6 (IL-6) and its putative role in plasma cell diseases. These studies have culminated in the first clinical study of the role of an antibody to a growth factor as therapy for a human cancer (anti-IL-6 antibody as therapy for patients with myeloma). Derek Crowther presented data concerning the current clinical role of the haematopoietic growth factors in patients undergoing chemotherapy for cancer. Recent clinical research has established the role of granulocyte colony-stimulating factor (G-CSF) and granulocyte-macrophage colony-stimulating factor (GM-CSF) in improving the safety of high-dose or accelerated chemotherapy, and their use is associated with enhanced neutrophil recovery following ablative therapy and bone marrow rescue. This session was followed by the presentation of three papers concerning the use of G-CSF and GM-CSF in association with chemotherapy for patients with malignant lymphoma.
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PMID:Workshop on growth factors. 167 82

Granulocyte colony-stimulating factor (G-CSF), granulocyte-macrophage colony-stimulating factor (GM-CSF), gamma-interferon (gamma-IFN), or tumor necrosis factor-alpha (TNF-alpha) triggered the rapid, stable phosphorylation of a 75-Kd protein (p75) when incubated with permeabilized HL60 human myeloid leukemia cells in the presence of [gamma-32P] ATP. Among several chemical inducers of HL60 cell differentiation, dimethyl sulfoxide also triggered p75 labeling, but retinoic acid or 12-O-tetradecanoylphorbol-13-acetate did not elicit this response. Pretreatment of cells with G-CSF or GM-CSF for more than 30 seconds before permeabilization rendered the p75 labeling undetectable, suggesting that ligand-stimulated labeling was rapidly completed within this time in intact cells. Phosphorylation of p75 occurred on serine and tyrosine residues. This conclusion was confirmed by direct phosphoamino acid analysis. Immunoblot analysis of lysates of intact HL60 cells that had been incubated with G-CSF, GM-CSF, IFN, or TNF confirmed that tyrosine phosphorylation of a p75 also occurred in response to these cytokines in intact cells. Pretreatment of intact HL60 cells with one biologic agent or dimethyl sulfoxide abolished p75 labeling in response to incubation of permeabilized cells with a second agent, strongly suggesting that the same protein was phosphorylated in response to these treatments. p75 labeling was strictly dependent on expression of the appropriate ligand receptor. Data suggest that activation of a tyrosine kinase system is an early response to the binding of G-CSF, GM-CSF, TNF, or IFN to their respective cell surface receptors, or to the addition of dimethyl sulfoxide, and that the resulting phosphorylation event(s) may play a role in securing common elements in the biologic responses to these agents.
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PMID:Binding of G-CSF, GM-CSF, tumor necrosis factor-alpha, and gamma-interferon to cell surface receptors on human myeloid leukemia cells triggers rapid tyrosine and serine phosphorylation of a 75-Kd protein. 168 3


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