UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have recently described a system that supports the development of continuously growing and tumorigenic cell lines after infection of individual multilineage hematopoietic colonies with Abelson murine leukemia virus (A-MuLV). We now provide definitive evidence that these transformed lines express features characteristic of mast cells. Although these lines have been maintained in some cases for more than a year in the absence of exogenous growth factors other than those present in fetal calf serum, colony formation could consistently after 2 months, and variably after 5 months, be shown to be increased several fold when pokeweed mitogen-stimulated spleen cell conditioned medium (CM) was added to the cultures. CM from the A-MuLV-transformed lines was then tested for its ability to stimulate hematopoietic colony formation by cells from both fetal and adult tissues. Four of four randomly selected cell lines produced factors that were active on erythropoietic, granulopoietic, and in some cases pluripotent progenitors. Removal of viral particles from the CM from one of the lines (27d1) by either heat inactivation or high-speed centrifugation did not alter the colony-stimulating activity detected. When CM from 27d1 cells was tested for its ability to stimulate the proliferation of interleukin 3 (IL3) granulocyte-macrophage colony-stimulating factor (GM-CSF)-dependent FDC-P1 cells, a positive result was obtained. This stimulatory activity was not reduced in the presence of neutralizing anti-IL 3 immunoglobulin (Ig), suggesting that the activity detected was GM-CSF and not IL 3. This was confirmed by the lack of expression of the IL 3 gene in 27d1 cells as determined by Northern analysis of 27d1 cell RNA. Furthermore, S1 analysis of mRNA from 27d1 cells as well as two other lines indicated that the GM-CSF gene in all three was transcriptionally active. Taken together, these data suggest that A-MuLV transformation of normal mast cells or their precursors under certain conditions commonly activates the production of GM-CSF.
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PMID:Production of granulocyte-macrophage colony-stimulating factor by Abelson virus-induced tumorigenic mast cell lines. 349 Feb 85

The ability of bone marrow stroma cells of normal WCB6F1 (+/+) mice versus their congenic Sl/Sld stromal-defective littermates to support sustained proliferation and leukemic transformation of the growth factor-dependent myeloid cell line FDC-P1 was studied. Extensive proliferation of factor-dependent cells occurred on (+/+) normal long-term marrow culture stroma without the addition of growth factor, whereas factor-dependent cells dissipated from Sl/Sld stromal cultures after addition. The sustained proliferation that occurred on +/+ stromal layers later resulted in the appearance of factor-independent cell lines that were no longer dependent upon stroma. Factor-independent cell lines were cloned by limiting dilution and analyzed for expression of cell surface antigens to prove their origin from FDC-P1. Factor-independent cells, but not factor-dependent cells, formed tumors in syngeneic mice. These studies demonstrate a critical role for marrow stroma in the stepwise development of murine leukemia and are concordant with the previous data obtained in in vivo studies by McCool et al. that the splenic stroma of irradiated Sl/Sld mice do not support growth of Friend virus-induced preleukemic cell colonies. The present data demonstrate in a preleukemia model not induced by Friend virus complex that normal (+/+) stromal cells promote the in vitro proliferation of factor-dependent preleukemic cells and their subsequent transition to factor-independent leukemia cells, but Sl/Sld defective stroma do not efficiently promote this transition.
Leukemia 1987 Nov
PMID:Cellular control of in vitro progression of murine myeloid leukemia: progression accompanies acquisition of independence from growth factor and stromal cells. 350 Mar 74

WEHI-3B myelomonocytic leukaemia cells secrete a haemopoietic cell growth factor (HCGF) which facilitates the proliferation and development of multipotential stem cells and committed progenitor cells. Several cloned, nonleukaemic cell lines (FDC-P cells) are absolutely dependent on HCGF and die in the absence of it. In these cell lines, factor dependence is associated with the ability of HCGF to increase glucose uptake, thereby controlling glycolytic flux and intracellular ATP levels. We have now investigated the effects of HCGF on glucose uptake in WEHI-3B cells. At 20 degrees C 2-deoxyglucose uptake could be stimulated by the addition of HCGF to the extracellular medium. L-glucose uptake was markedly lower than 2-deoxyglucose uptake and did not respond to the addition of HCGF. At 37 degrees C no HCGF stimulation of 2-deoxyglucose uptake was found. However, at this temperature HCGF release from WEHI-3B cells was markedly higher than at 20 degrees C. Our experiments indicate that HCGF stimulates the glucose transport system in both WEHI-3 cells and FDC-P cells. The similarities between the WEHI-3B cell and FDC-P2 cell polypeptide phenotype were investigated using two-dimensional isoelectric focussing/poly-acrylamide gel electrophoresis. This revealed a high degree of correlation between the two cell types in their protein constituents, indicating a close relationship between the normal and leukaemic cells. These similarities between WEHI-3B cells and FDC-P2 cells are considered and their relevance to haemopoiesis and leukaemogenesis is discussed.
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PMID:Stimulation of hexose uptake by haemopoietic cell growth factor occurs in WEHI-3B myelomonocytic leukaemia cells: a possible mechanism for loss of growth control. 388 26

A number of haematopoietic precursor cell lines have been established which exhibit an absolute dependence on haematopoietic cell growth factor (HCGF) which is secreted by WEHI-3 myelomonocytic leukaemia cells. In the presence of HCGF, ATP levels are maintained in these factor-dependent cells (FDC-P cells); in the absence of HCGF, intracellular ATP levels undergo a steady depletion. The cell death that follows this ATP depletion can be prevented by supplying exogenous ATP suggesting that HCGF maintains these cells via its effects on energy metabolism. We have investigated the effect of HCGF on FDC-P cells further and found that: (i) HCGF markedly and rapidly increases lactate production; (ii) high extracellular glucose or glycolytic intermediate concentrations can maintain FDC-P cell viability to some extent whilst stimulating lactate production; (iii) the uptake of 2-deoxyglucose by FDC-P2 cells is stimulated by HCGF in a dose-dependent fashion. This uptake is inhibited by cytochalasin B; (iv) HCGF does not stimulate L-glucose uptake by FDC-P cells. These results suggest that HCGF acts to maintain FDC-P cells via its action on glucose transport. The significance of these results to haemopoiesis and leukaemogenesis is discussed.
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PMID:Haemopoietic cell growth factor mediates cell survival via its action on glucose transport. 637 Jun 82

A myelomonocytic leukaemia cell line, WEHI-3, releases into its growth medium factors which stimulate the development of pluripotential cells, granulocyte/macrophage progenitor cells, megakaryocytic and erythroid progenitor cells. Also present is a factor which is essential for the continued proliferation in vitro of a variety of haemopoietic precursor cell lines of a granulocytic nature (FDC-P cells). Characterization of this growth factor has demonstrated that it is a glycoprotein of apparent Mr 25 800, in which the carbohydrate component appears to be important for activity. After several purification steps, there is an increase in specific activity of approx. 4000-fold over the starting material. At each stage of purification, the factor necessary for the proliferation of FDC-P cells 'co-purifies' with activity which stimulates the proliferation and development of normal multipotential haemopoietic cells as well as megakaryocytic, erythroid and granulocytic committed progenitor cells. This 'co-purification' occurs to the extent that the multilineage stimulating factor and the FDC-P growth factor can be eluted from the same region of sodium dodecyl sulphate/polyacrylamide gels. Thus, evidence so far, using different starting methods and purification regimes, suggests that one molecule may have multiple activities on diverse cell types.
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PMID:Characterization and partial purification of a haemopoietic cell growth factor in WEHI-3 cell conditioned medium. 657 77

Factors that stimulate the proliferation and differentiation of murine bone marrow cells have been purified from a cloned T cell lymphoma, LBRM-33, and a cloned myelomonocytic leukemia cell line, WEHI-3. These colony-stimulating factors (CSF) have been purified by sequential fractionation by using salt precipitation, gel filtration, anion and cation exchange chromatography, and high pressure liquid chromatography. Both LBRM-33 and WEHI-3 cells secrete a CSF species with similar chemical and biologic properties. This CSF species appears to exist in two forms, termed CSF-2 alpha and CSF-2 beta, both of which stimulate the growth of bone marrow cells in the granulocyte, macrophage, megakaryocyte, mast cell, and erythrocyte lineages, as well as the growth of a CSF-dependent cell line, FDC-P2. These properties of CSF-2 alpha and -2 beta are similar to those reported for interleukin 3, hematopoietic cell growth factor, mast cell growth factor, and persisting cell growth factor. However, LBRM-33 cells secrete another CSF species, not produced by WEHI-3 cells. This CSF species, unique to LBRM cells, is termed here CSF-2 gamma and it stimulates the proliferation of granulocytes and macrophages from bone marrow but does not support the growth of FDC-P2 cells.
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PMID:Biochemical comparison of murine colony-stimulating factors secreted by a T cell lymphoma and a myelomonocytic leukemia. 660 83

We present data that retroviral gene expression in early hematopoietic cells is subjected to transcriptional controls similar to those previously described for embryonic stem cells. Transient transfection experiments revealed that both the viral enhancer region in the U3 region of the long terminal repeat as well as a repressor element coincident with the primer binding site of Moloney leukemia viruses are limiting for expression in hematopoietic cells in a differentiation-dependent manner. Within the group of Moloney leukemia virus-related viruses, only the myeloproliferative sarcoma virus showed high enhancer activity in myeloid (including erythroid) cells. In contrast, enhancer regions related to the Friend mink cell focus-forming viruses mediate much higher gene expression levels in both multipotent and lineage-committed myeloid cells. In addition, transcriptional repression related to sequences in the primer binding site of Moloney leukemia virus-derived vectors is also found in early hematopoietic cells and can be overcome by using the corresponding sequences of the murine embryonic stem cell virus. On the basis of these results, two types of novel retroviral hybrid vectors were developed; they combine the U3 regions of either the Friend mink cell focus-forming virus family or the myeloproliferative sarcoma virus with the primer binding site of the murine embryonic stem cell virus. When used to express the human multiple drug resistance gene, these vectors substantially improve protection to cytostatic drugs in transduced hematopoietic cell lines FDC-Pmix, TF-1, and K-562 in comparison with Moloney leukemia virus-derived vectors presently used for the stem cell protection approach in somatic gene therapy.
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PMID:Novel retroviral vectors for efficient expression of the multidrug resistance (mdr-1) gene in early hematopoietic cells. 749 60

Stem cell factor (SCF) was found to stimulate the growth of the haemopoietic cell line FDC-P1 in synergy with either interleukin 3 (IL-3) or granulocyte-macrophage-colony stimulating factor (GM-CSF). Similarly, macrophage colony-stimulating factor (M-CSF) was shown to synergize with IL-3 or GM-CSF, following the infection of FDC-P1 cells with a recombinant retrovirus which encoded the receptor for M-CSF (M-CSFr). These results raise the possibility that signal transduction pathways which are controlled by SCF in FDC-P1 cells, can be activated by M-CSF if its receptor is illicitly expressed. FDC-P1 cells that expressed the M-CSFr were responsive to as little as 100 U/ml of M-CSF when added in combination with IL-3 or GM-CSF. This sensitive assay was used to demonstrate that transforming deletions of the C-terminal tail of the M-CSFr and two-point mutations within the same region that converted tyrosine 969 to either phenylalanine or to cysteine, allowed the mutant M-CSF receptors to synergize with IL-3 or GM-CSF in the absence of M-CSF. These mutations were found to be more evidently transforming in FDC-P1 cells than in Rat-2 fibroblasts. The possible relevance of these results to leukaemia and to gynaecological malignancies is discussed.
Leukemia 1994 Jan
PMID:Synergy between SCF or M-CSF with IL-3 or GM-CSF in FDC-P1 cells: a sensitive assay of transforming mutations of c-fms. 750 91

We previously reported that M-CSF could mimic the synergistic effect of SCF upon myeloid FDC-P1 cells that were first infected with a c-fms retrovirus, which encodes the human M-CSFr. We now report that an M-CSFr with a mutation of its autophosphorylation site at position 809 was, in response to M-CSF, unable both to synergize with IL-3 or GM-CSF and to induce c-myc; whereas a mutant receptor with a deletion of its kinase insert was unaffected for these processes. The expression of an exogenous c-myc proto-oncogene or a 12H-ras oncogene lowered the requirement of FDC-P1 cells for IL-3 or GM-CSF, in a similar manner to M-CSF or SCF addition. Furthermore, the expression of either of these genes complemented the defective M-CSFr F809. These results strongly support a role for ras and myc in the synergistic action of M-CSF and, by implication, of SCF, which implies that these signalling intermediates are rate-limiting for the action of IL-3 and GM-CSF and possibly other haemopoietic growth factors.
Leukemia 1994 Nov
PMID:Evidence that ras and myc mediate the synergy between SCF or M-CSF and other haemopoietic growth factors. 752 94

The c-kit receptor tyrosine kinase (KIT) is activated upon ligand binding, thereby leading to a variety of signaling events that play a fundamental role in hematopoiesis. In addition to ligand-dependent activation, we have previously shown that KIT is constitutively activated in a ligand-independent manner by two point mutations, Val-559-->Gly (G559) mutation in the juxtamembrane domain and Asp-814-->Val (V814) mutation in the phosphotransferase domain. To investigate the biochemical consequence and biologic significance of these mutations, retroviral vectors encoding KITG559 or KITV814 were introduced into murine pro-B-type Ba/F3 cells and myeloid FDC-P1 cells, both of which require interleukin-3 (IL-3) for their growth and survival. In the cells, KITG559 or KITV814 were found to be constitutively phophorylated on tyrosine in the absence of stem cell factor (SCF) that is a ligand for KIT. Chemical cross-linking analysis showed that a substantial fraction of the phosphorylated KITG559 underwent dimerization even in the absence of SCF, whereas the phosphorylated KITV814 did not, suggesting the distinct mechanisms underlying constitutive activation of KIT by G559 and V814 mutations. Furthermore, the cells expressing either KITG559 or KITV814 were found to show a factor-independent growth, whereas the cells expressing wild-type KIT (KITWT) proliferated in response to SCF as well as IL-3. Moreover, subcutaneous injection of Ba/F3 cells expressing KITG559 or KITV814 into nude mice resulted in production of large tumors at all sites of the injection within 2 weeks, and all nude mice quickly succumbed to leukemia and died. These results suggest that, although the mechanisms underlying constitutive activation of KITG559 or KITV814 may be different, both of the activating mutations have a function to induce a factor-independent and tumorigenic phenotype. Also, the data of this study raise the possibility that the constitutively activating mutations of c-kit may play a causal role in development of hematologic malignancies.
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PMID:Constitutively activating mutations of c-kit receptor tyrosine kinase confer factor-independent growth and tumorigenicity of factor-dependent hematopoietic cell lines. 753 May 9

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