Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the effects of recombinant human macrophage colony-stimulating factor (M-CSF) on the leukemic blast progenitors from 10 acute myeloblastic leukemia patients. Recombinant human (rh)M-CSF stimulated leukemic blast progenitors in methylcellulose in four patients, but the colonies by rhM-CSF were smaller in size and number than those by rh-granulocyte-CSF or human bladder carcinoma cell line 5637 conditioned medium. rhM-CSF did not increase the number of clonogenic cells in long-term suspension culture. The blast colony formation in methylcellulose and the exponential growth of clonogenic cells in long-term suspension culture are considered to reflect the terminal divisions and the self-renewal of blast progenitors, respectively. The results show that M-CSF stimulates terminal divisions weakly but does not stimulate self-renewal of leukemic blast progenitors. M-CSF did not induce differentiation of blasts either in methylcellulose or in suspension culture.
Leukemia 1988 Jun
PMID:Effect of recombinant human M-CSF on the proliferation of leukemic blast progenitors in AML patients. 328 22

Retroviruses lacking oncogenes can induce tumours in animals, and the tumour cells are frequently found to contain proviral DNA inserted next to a proto-oncogene, which is thus placed under the regulatory control of the retroviral long terminal repeat (LTR). This altered regulation leads to overexpression of the proto-oncogene, which presumably contributes to the growth properties of the tumour cells. fim-2 has been described as a retroviral integration site frequently and specifically involved in murine myeloblastic leukaemias induced in vivo or in vitro by the replication-competent Friend murine leukaemia virus (F-MuLV). Here we report that fim-2 spans the 5'-end of the murine proto-oncogene c-fms, known to code for a transmembrane glycoprotein with tyrosine kinase activity probably identical to the receptor of the haemopoietic growth factor, monocyte-macrophage colony-stimulating factor (M-CSF or CSF-1). Proviral integration in the fim-2 region results in a high expression of a normal sized c-fms messenger RNA. We also observe that some tumours have lost the fim-2/c-fms germ line allele. These results provide the first evidence for the presumed involvement of c-fms in myelomonocytic leukaemias.
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PMID:Frequent c-fms activation by proviral insertion in mouse myeloblastic leukaemias. 347 56

Colony-stimulating factors (CSFs) are glycoproteins that stimulate the growth of hematopoietic progenitors and enhance the functional activity of mature effector cells. Human granulocyte/macrophage colony-stimulating factor (GM-CSF) is a 22-kDa glycoprotein that stimulates the growth of myeloid and erythroid progenitors in vitro and increases the responsiveness of neutrophils, monocytes, and eosinophils to physiologic stimuli. Elucidation of the cell and tissue sources of CSFs, as well as study of their regulation of expression, is required to understand their role in physiologic and pathophysiologic states. An extensive survey of normal and neoplastic human tissues did not reveal constitutive production of detectable levels of GM-CSF mRNA in any of the 64 samples studied. Antigen- or lectin-activated T lymphocytes have been shown to produce GM-CSF; therefore, to elucidate the genetic sequences required, we constructed recombinant plasmids containing 5' flanking DNA of the GM-CSF gene linked to the marker chloramphenicol acetyltransferase gene. The recombinant constructs were transfected into a human T-cell leukemia virus type I (HTLV)-infected T-lymphoblast cell line that can be stimulated to produce high levels of GM-CSF. We show here that the 5' flanking sequences of the GM-CSF gene can direct increased expression of the chloramphenicol acetyltransferase gene in activated T-lymphoblast cells.
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PMID:Regulation of expression of human granulocyte/macrophage colony-stimulating factor. 349 Jun 69

C3H/HeJ mouse long-term bone marrow cultures infected at initiation with a cloned polycythemic strain of Friend spleen focus forming virus in a cloned N-tropic murine leukemia virus helper virus coat, persistently produced: colony-forming unit spleen (CFUs) for 55 weeks that formed macroscopic spleen colonies in syngeneic or allogeneic C57B10.Br/J mice; and L-cell or WEHI-3 cell conditioned medium-dependent granulocyte-macrophage colony forming unit culture (GM-CFUc); and morphologically normal granulocytes for over 245 weeks. Colony stimulating factor (CSF)-independent colony forming progenitor cells were first detectably produced in vitro at 75 weeks, and when subcultured generated karyotypically distinct permanent factor-independent tumorigenic cell lines. Nonadherent cells removed from long-term marrow cultures at 19 but not at 77 weeks reconstituted donor origin hematopoiesis in C57B10.Br/J mice as measured by B-cell lineage surface immunoglobin allotype. Nonadherent cells removed at 77 weeks produced lethal splenomegaly and marrow infiltration with culture origin cells in C57B10.Br/J mice. Despite generation of clonal malignant cell lines, L-cell DSF (CSF-1, M-CSF) responsive GM-CFUc that were simultaneously produced over 4 years in the same long-term marrow cultures, grew to 7 day colonies in semisolid medium and terminally differentiated. Thus, adherent stromal cells in Friend virus-infected long-term bone marrow cultures simultaneously support CSF-responsive and malignant CSF-independent hematopoietic progenitor cells.
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PMID:Friend virus-infected long-term bone marrow cultures produce colony stimulating factor dependent and independent granulocyte-macrophage progenitor cells for over four years in vitro. 349 38

Clonogenic assays for M, GM, and G precursors of rat or mouse marrow cells were performed in the presence of medium conditioned by the growth of ASL-1 leukemia X LM fibroblast hybrid cells. Both GM- and M-colony-forming units (CFUs) were present in marrow cultures maintained in conditioned medium (CM) from hybrid cells (up to 162 +/- 10 total colonies per 10(5) cells) and from LM cells (65 +/- 5). Conditioned medium from ASL-1 cells did not lead to the formation of CFUs. The hybrid cell-derived CM supported the development of M and GM-CFUs from the marrows of DBA, CAF1, BDF1, C3D2F1, and C57B1/6 mice as well as Lewis, Brown Norway, and Wistar Furth rats. G-CFU were not detected in any of the preparations. Hybrid cell-CM supported the long-term growth and proliferation of macrophage-like cells from mouse spleen, consistent with the presence of M-colony-stimulating factor (CSF). Evidence that M-CSF formed by the hybrid cells and M-CSF formed by L cells shared structural features was provided by antibody neutralization studies. The CFU-promoting activity of hybrid cell-derived M-CSF was neutralized by an antiserum raised in goats against M-CSF purified from L cells. Independently prepared ASL-1 X LM hybrid cells, like the original, led to the formation of GM and M-CFUs. Attempts to detect each of several other previously defined growth factors in medium conditioned by the hybrid cells were unsuccessful. Interleukins 1, 2, and 3; B cell growth factors interferons alpha, beta, and gamma; erythropoietin; and burst promoting factor were not detected.
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PMID:Formation of macrophage (M) colony-stimulating factor by murine leukemia x fibroblast hybrid cells. 349 13

It is apparent that multiple cellular stages and biologic processes can be identified during megakaryocytopoiesis that are potentially subject to control by hematopoietic growth factors and marrow accessory cell populations. Two classes of megakaryocyte progenitor cells, the colony forming unit-megakaryocyte (CFU-MK) and the burst forming unit-megakaryocyte (BFU-MK), have now been detected in normal human bone marrow cells. The BFU-MK by virtue of the greater cellular content of its resultant colonies and the delayed time of appearance of these colonies appears to be a more primitive progenitor cell with a greater proliferative potential than the CFU-MK. A number of hematopoietic growth factors including megakaryocyte colony stimulating factor, (MK-CSF), recombinant erythropoietin (EPO) and granulocyte macrophage colony stimulating factor (GM-CSF) are each capable of increasing cloning efficiency of human megakaryocyte progenitor cells. It is presently unknown whether these factors act directly on the CFU-MK or whether they stimulate marrow accessory cells to elaborate growth factors that influence CFU-MK proliferation. In order to answer this question, the effect of these growth factors on the cloning efficiency of a human megakaryocytic cell line, EST-IU, was examined. Each of these factors was capable of increasing leukemia cell colony formation. One can conclude from these studies that MK-CSF, EPO, and GM-CSF act directly on cells of the megakaryocytic lineage. The physiologic significance of the lineage nonspecific effects of EPO and GM-CSF on megakaryocytopoiesis is yet to be determined. On the basis of these observations, a model of human megakaryocytopoiesis was suggested. Several factors appear able to influence multiple steps in megakaryocytic development, whereas others influence only specific stages or cellular events occurring during megakaryocytopoiesis.
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PMID:New insights into the regulation of human megakaryocytopoiesis. 349 96

Three human leukemia cell lines (TALL-101, AML-193, and MV4-11) that require granulocyte/macrophage-colony stimulating factor (GM-CSF) for growth in a chemically defined medium were examined for their response to recombinant human (rh) cytokines. Either rh interleukin (IL)-3 or rhGM-CSF alone supported the long term growth of all three cell lines, and the two growth factors acted synergistically to stimulate the proliferation of the early T lymphoblastic leukemia (TALL-101) and of the monocytic leukemia (AML-193) cells. However, IL-3 antagonized the proliferation of the biphenotypic B-myelomonocytic leukemia (MV4-11) cells in the presence of GM-CSF when both factors were used at very low concentrations. The rh granulocyte (G)-CSF independently supported the long and short term growth of AML-193 and MV4-11, respectively, and synergized with GM-CSF in inducing proliferation of these cells. By contrast, G-CSF did not stimulate TALL-101 cell growth and antagonized the effect of GM-CSF such that proliferation was arrested. Although neither rh macrophage (M)-CSF nor rhIL-1 alpha independently promoted proliferation of the three leukemia cell lines, these cytokines were able to either up- or down-regulate the GM-CSF-dependent growth of these cells. Taken together, these data demonstrate that leukemic cells often require the synergistic action of several cytokines for optimal growth, whereas other combinations of factors may be growth-inhibitory. This raises the possibility that multiple hemopoietic growth factors sustain or control leukemic cell proliferation also in vivo. In addition, the observation the G-CSF, M-CSF, and IL-1 alpha can, in some cases, arrest cell proliferation without inducing differentiation suggests that the programs of proliferative arrest and differentiation in leukemic cells can be dissociated.
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PMID:Synergistic and antagonistic effects of recombinant human interleukin (IL) 3, IL-1 alpha, granulocyte and macrophage colony-stimulating factors (G-CSF and M-CSF) on the growth of GM-CSF-dependent leukemic cell lines. 350 Feb 18

Plateau-phase mouse clonal bone marrow stromal cell lines D2XRII and C3H cl 11 produce decreasing levels of M-CSF (CSF-1), a specific macrophage progenitor cell humoral regulator, following X-irradiation in vitro. The decrease did not go below 40% of control levels, even after irradiation doses of 50,000 rad (500 Gy). In contrast, a distinct humoral regulator stimulating growth of GM-CSF/IL-3 factor-dependent (FD) hematopoietic progenitor cell lines was detected following radiation to doses above 2,000 rad. This humoral factor was not detectable in conditioned medium from irradiated cells, weakly detected using factor-dependent target cell populations in agar overlay, and was prominently detected by liquid co-cultivation of factor-dependent cells with irradiated stromal cell cultures. Subclonal lines of FD cells, derived after co-cultivation revealed karyotypic abnormalities and induced myeloblastic tumors in syngeneic mice. Five-eight weeks co-cultivation was required for induction of factor independence and malignancy and was associated with dense cell to cell contact between FD cells and stromal cells demonstrated by light and electron microscopy. Increases in hematopoietic to stromal cell surface area, total number of adherent cells per flask, total non-adherent cell colonies per flask, and cumulative non-adherent cell production were observed after irradiation. The present data may prove very relevant to an understanding of the cell to cell interactions during X-irradiation-induced leukemia.
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PMID:Interaction between x-irradiated plateau-phase bone marrow stromal cell lines and co-cultivated factor-dependent cell lines leading to leukemogenesis in vitro. 358 3

Normal C57BL mouse peritoneal cells were able to synthesize material with the ability to induce differentiation in colonies of the mouse myelomonocytic leukemia cell line, WEHI-3B. The active factor was provisionally identified biochemically as the normal regulator, granulocyte colony-stimulating factor, G-CSF. Thioglycollate-induced peritoneal exudate cells had little or no capacity to synthesize such material. Production of active material was elevated 10-100-fold by exposure of peritoneal cells to endotoxin, detectable elevations being observed after the addition of as little as 0.8 ng/ml. Production of G-CSF was observed using adherent peritoneal macrophages, was a radioresistant process depending on protein synthesis and was not modified by the absence or addition of T-lymphocytes. Addition of unfractionated media containing M-CSF or Multi-CSF, partially purified M-CSF or fully purified Multi-CSF elevated the production of G-CSF by peritoneal cells from both C57BL mice and mice of the endotoxin-unresponsive strain C3H/HeJ, but an involvement of endotoxin in this process could not be excluded absolutely. The experiments provide further evidence that microorganisms and perhaps hemopoietic regulators play an important role in modulating the production of G-CSF and thus have the potentiality to influence the emergence and progressive proliferation of myeloid leukemia populations.
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PMID:Synthesis by mouse peritoneal cells of G-CSF, the differentiation inducer for myeloid leukemia cells: stimulation by endotoxin, M-CSF and multi-CSF. 388 43

ASL-1 x LM(TK-) hybrid cells, an established murine leukaemia x fibroblast hybrid cell line, augment the antibody response to sheep red blood cells in inbred mice, as determined by the plaque assay method. The intraperitoneal injection of viable hybrid cells or of growth medium conditioned by the cells leads to an increase both in the total number as well as the proportion of cells forming antibodies to sheep red blood cells. CSF-1, (M-CSF), is detected by radioimmunoassay in the medium conditioned by the hybrid and LM(TK-) cells, but not ASL-1 parental cells. Prior treatment of the conditioned medium with CSF-1 antiserum reduces its capacity to augment the antibody response, and its proliferative stimulus on cells from the marrow indicating that CSF-1 may be at least partly responsible for the adjuvant effect observed. The intraperitoneal implantation of diffusion chambers containing viable CSF-1 producing hybrid cells, like the cells themselves, also leads to an increase in the number of spleen cells forming antibodies to sheep red blood cells.
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PMID:Leukaemia x fibroblast hybrid cells augment the antibody response to sheep red blood cells in inbred mice. 390 92


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