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

The genetic structure of the McDonough strain of feline sarcoma virus (SM-FeSV) was deduced by analysis of molecularly cloned, transforming proviral DNA. The 8.2-kilobase pair SM-FeSV provirus is longer than those of other feline sarcoma viruses and contains a transforming gene (v-fms) flanked by sequences derived from feline leukemia virus. The order of genes with respect to viral RNA is 5'-gag-fms-env-3', in which the entire feline leukemia virus env gene and an almost complete gag sequence are represented. Transfection of NIH/3T3 cells with cloned SM-FeSV proviral DNA induced foci of morphologically transformed cells which expressed SM-FeSV gene products and contained rescuable sarcoma viral genomes. Cells transformed by viral infection or after transfection with cloned proviral DNA expressed the polyprotein (P170gag-fms) characteristic of the SM-FeSV strain. Two proteolytic cleavage products (P120fms and pp55gag) were also found in immunoprecipitates from metabolically labeled, transformed cells. An additional polypeptide, detected at comparatively low levels in SM-FeSV transformants, was indistinguishable in size and antigenicity from the envelope precursor (gPr85env) of feline leukemia virus. The complexity of the v-fms gene (3.1 +/- 0.3 kilobase pairs) is approximately twofold greater than the viral oncogene sequences (v-fes) of Snyder-Theilen and Gardner-Arnstein FeSV. By heteroduplex, restriction enzyme, and nucleic acid hybridization analyses, v-fms and v-fes sequences showed no detectable homology to one another. Radiolabeled DNA fragments representing portions of the two viral oncogenes hybridized to different EcoRI and HindIII fragments of normal cat cellular DNA. Cellular sequences related to v-fms (designated c-fms) were much more complex than c-fes and were distributed segmentally over more than 40 kilobase pairs in cat DNA. Comparative structural studies of the molecularly cloned proviruses of Synder-Theilen, Gardner-Arnstein, and SM-FeSV showed that a region of the feline-leukemia virus genome derived from the pol-env junction is represented adjacent to v-onc sequences in each FeSV strain and may have provided sequences preferred for recombination with cellular genes.
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PMID:McDonough feline sarcoma virus: characterization of the molecularly cloned provirus and its feline oncogene (v-fms). 628 62

A new acute transforming type C retrovirus was isolated from mice inoculated with a virus stock obtained by iododeoxyuridine induction of methylcholanthrene-transformed C3H/10T1/2 mouse cells. This virus, designated 3611-MSV, transforms embryo fibroblasts and epithelial cells in culture and induces fibrosarcomas in vivo. 3611-MSV is replication defective, requiring a type C helper virus for propagation both in vitro and in vivo. By using endpoint transmission of 3611-MSV to MMCE C17 mouse and FRE 3A rat cells, several nonproductively transformed clonal cell lines have been derived. Pseudotype virus stocks obtained from such clones transform cells in vitro, are highly oncogenic in vivo, and exhibit host range and serological properties that are characteristic of their helper virus component. Analysis of viral antigen expression in 3611-MSV-transformed cells has led to the demonstration of a 90,000-molecular-weight (Mr) polyprotein and a 75,000-Mr probable cleavage product, both containing the amino-terminal murine leukemia virus gag gene proteins p15 and p12. In contrast to gene products of many previously described mammalian transforming viruses, 3611-MSV-encoded polyproteins lack detectable protein kinase activity, and 3611-MSV-transformed cells resemble chemically transformed cell line C3H/MCA-5, from which 3611-MuLV was originally derived, in that they do not exhibit elevated levels of phosphotyrosine. By using molecular hybridization the 3611-MSV transforming gene was found to be distinct from previously described mammalian cellular oncogenic sequences, including c-ras, c-abl, c-fes, c-fms, c-sis, and c-mos.
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PMID:New mammalian transforming retrovirus: demonstration of a polyprotein gene product. 630 Apr 62

Mutations of signal transducing molecules such as Ras have been shown to confer a growth advantage in leukaemic blasts and contribute to the pathogenesis of the disease. Alterations of signal transducing molecules other than Ras may play a role in leukaemogenesis. Knowledge of such mutations could also further our understanding of the normal signalling processes. We have therefore studied the coding sequence of the GM-CSF receptor alpha chain (GM-CSFR alpha) in patients with acute myeloid leukaemia (AML) and non-AML controls using single strand conformation polymorphism (SSCP) analysis. Abnormalities were detected in 4/32 AML patients (13%) and 2/15 non-AML controls (13%). Direct sequencing of PCR products revealed five different base substitutions. Three were conservative, two caused amino acid changes. The base substitution leading to amino acid change alanine to glycine at position 17 was found in both an AML patient and a control. It lies in the signal sequence and does not affect the mature protein. The other base change altering arginine to glutamine at position 164 is unlikely to influence the receptor structure as this structural position in the chain is not well conserved in members of the cytokine receptor family. Both amino acid changes were constitutive alterations as they could be demonstrated in the patients' children. The base changes described in the AML patients thus represent polymorphisms and do not contribute to the pathogenesis of AML.
Leukemia 1994 Sep
PMID:Analysis of mutations in the GM-CSF receptor alpha coding sequence in patients with acute myeloid leukaemia and haematologically normal individuals by RT-PCR-SSCP. 752 90

The generation of murine mast cells is supported by several cytokines, and mast cell lines are frequently established in long-term cultures of normal murine marrow cells. In contrast, growth of human mast cells was initially dependent on coculture with murine fibroblasts. The growth factor produced by murine fibroblasts and required to observe differentiation of human mast cells is attributable in part to stem cell factor (SCF). However, other factors are likely involved. We have previously shown that the combination of SCF and interleukin-3 (IL-3) efficiently sustains proliferation and differentiation of colony-forming cells (CFCs) from pre-CFC enriched from human umbilical cord blood by CD34+ selection. With periodic medium changes and the addition of fresh growth factors, five consecutive cultures of different cord blood samples gave rise to differentiated cells and CFCs for more than 2 months. Although differentiated cells continued to be generated for more than 5 months, CFCs were no longer detectable by day 50 of culture. The cells have the morphology of immature mast cells, are Toluidine blue positive, are karyotypically normal, are CD33+, CD34-, CD45+, c-kit-, and c-fms-, and die in the absence of either SCF or IL-3. These cells do not form colonies in semisolid culture and are propagated in liquid culture stimulated with SCF and IL-3 at a seeding concentration of no less than 10(4) cells/mL. At refeedings, the cultures contain a high number (> 50%) of dead cells and have a doubling time ranging from 5 to 12 days. This suggests that subsets of the cell population die because of a requirement for a growth factor other than SCF or IL-3. These results indicate that the combination of cord blood progenitor and stem cells, plus a cocktail of growth factors including SCF and IL-3, is capable with high efficiency of giving rise in serum-deprived culture to human mast cells that behave like factor-dependent cell lines. These cells may represent a useful tool for studies of human mast cell differentiation and leukemia.
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PMID:Long-term generation of human mast cells in serum-free cultures of CD34+ cord blood cells stimulated with stem cell factor and interleukin-3. 752 46

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

Failed surface expression of the complement decay-accelerating factor (DAF) due to mutation of the PIG-A gene is a hallmark of affected paroxysmal nocturnal haemoglobinuria (PNH) blood elements. Previous findings that acute myelogenous leukaemia (AML) blasts evolving in a PNH patient differed from idiopathic AML blasts in that they exhibited DAF negativity suggested that the leukaemic blasts derived from an affected PNH cell. To investigate whether these cells differ from untransformed PNH cells in PIG-A genetic alterations or in DAF mRNA processing, or are distinguishable from conventional AML blasts in proto-oncogene activation or chromosomal structure, their DNA and RNA were examined using PIG-A, DAF and proto-oncogene probes and their karyotype was analysed. Analyses of the PIG-A genome revealed dual exchanges of A1110-->G and T1130-->A resulting in conversions of T370 to R and I377 to N in the coding region but no deletions or rearrangements. Investigations of DAF mRNA processing showed mRNA species differing in 3' UT regions from those in untransformed cells but similar to those in DAF-positive leukaemia cell lines. Studies of c-myb, c-myc, c-fos and c-fms showed no gross genetic alterations, amplifications or variations in mRNA transcripts deriving from these genes. Karyotypic analysis showed no alterations. The results indicate that in AML blasts evolving in PNH: (1) the PIG-A genome exhibits multiple point mutations but no gross genetic changes; (2) DAF mRNA transcripts exhibit differentiation-dependent variations that do not affect GPI-anchoring; (3) c-myb, c-myc, c-fos and c-fms activation show no differences from idiopathic AML; and (4) no karyotypic abnormalities are associated with AML transformation.
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PMID:PIG-A, DAF and proto-oncogene expression in paroxysmal nocturnal haemoglobinuria-associated acute myelogenous leukaemia blasts. 753 Apr 80

Granulocyte colony-stimulating factor (G-CSF) exerts various biological effects through occupancy of its receptor (G-CSFR). WEHI-3B D- myelomonocytic leukemia cells do not express the G-CSFR, do not respond to G-CSF or to retinoic acid by the induction of granulocytic maturation, contain a near tetraploid content of DNA, and form tightly aggregated colonies. However, they still maintain the capacity to differentiate since they respond to vitamin D3 by the formation of mature cells. Transfection of the G-CSFR gene into WEHI-3B D- cells resulted in three major changes. G-CSFR-expressing clones (a) acquired the capacity to respond to the differentiation-inducing properties of G-CSF and retinoic acid, (b) formed colonies which exhibited a dispersed phenotype, and (c) exhibited near diploid DNA ploidy. In contrast, WEHI-3B D- cells transfected with vector alone behaved like parental WEHI-3B D- cells. The findings imply that the near diploid phenotype is required for WEHI-3B D- leukemia cells to respond to certain inducers of differentiation.
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PMID:The role of DNA ploidy in the differentiation of WEHI-3B D- leukemia cells transfected with the granulocyte colony-stimulating factor receptor gene. 754 55

The role of the lyn product (p53/p56lyn), a membrane-associated protein tyrosine kinase in the signaling pathway used by granulocyte macrophage-CSFR (GM-CSFR) was investigated by using the GM-CSF-dependent human megakaryoblastic leukemia cell line M-07e. M-07e cells express GM-CSFR and are dependent on GM-CSF for survival and proliferation in vitro. Treatment with anti-lyn Abs coimmunoprecipitated, along with lyn product, the beta subunit of GM-CSFR and a phosphoprotein with a molecular mass of 120 kDa (p120) in the lysates of M-07e cells but not in the lysates of human monocyte-derived macrophages (HMDM) or human lymphoid leukemia cells. That the 120-kDa phosphoprotein coimmunoprecipitated by anti-lyn Abs is the beta subunit of GM-CSFR was confirmed in the immunoprecipitates (IP) of M-07e cells with the use of an agarose-conjugated anti-p-tyr mAb. The formation of GM-CSF/GM-CSFR/lyn signaling complexes was verified in an autoradiographic study with anti-lyn IP of M-07e cells that had been bound with 125I-labeled recombinant human (rh)GM-CSF. The p120 protein (beta subunit) was not detected in the IP of M-07e cells with anti-fyn or anti-PI3 Abs. A direct association of Lyn kinase with the beta subunit of GM-CSFR was illustrated with a reversed approach showing the recovery of Lyn protein in anti-beta (CRS1) but not anti-alpha IP of M-07e cells that had been starved for a prolonged period. Finally, the interaction of Lyn kinase with the GM-CSFR complexes was further corroborated using anti-GM-CSF (G133) mAb, which coimmunoprecipitated both the p120 beta subunit and lyn product in the lysates of M-07e cells that had been bound with rhGM-CSF before cell lysis. Removal of rhGM-CSF from culture medium for 10 to 12 h resulted in a marked decrease in lyn-associated kinase activity but not the beta subunit/lyn kinase complex formation. Taken together, our results showed that, in M-07e cells, Lyn protein tyrosine kinase (p53/p56lyn) is stably associated with a constitutively phosphorylated beta subunit of the GM-CSFR in a manner that seems to be independent of lyn kinase activity.
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PMID:Association between Lyn protein tyrosine kinase (p53/56lyn) and the beta subunit of the granulocyte-macrophage colony-stimulating factor (GM-CSF) receptors in a GM-CSF-dependent human megakaryocytic leukemia cell line (M-07e). 763 65

The FLT3 gene encodes a receptor tyrosine kinase that is closely related to two well-known receptors, KIT and FMS, that regulate with their respective ligands, stem cell factor (SCF) and macrophage colony-stimulating factor (M-CSF), proliferation and differentiation of hematopoietic cells. The ligand for FLT3, FL, is active in both soluble and membrane-bound forms. We examined expression of FL and FLT3 mRNA in a panel of some 110 continuous human leukemia-lymphoma cell lines from all major hematopoietic cell lineages by Northern blot analysis. FLT3 mRNA is expressed primarily in pre-B cell lines, myeloid and monocytic cell lines whereas FL mRNA was detected in most cell lines from all cell lineages. Analysis of FLT3 receptor protein expression examined with a specific anti-FLT3 monoclonal antibody and flow cytometry in 17 cell lines confirmed the results obtained at the mRNA level. Forty of 110 cell lines displayed both receptor and ligand mRNA suggesting a possible autocrine or intracrine stimulation. In normal hematopoietic cells expression of FLT3 was reported to be associated with CD34 positivity, a cell surface marker of immature and precursor cells. No correlation between FLT3 and CD34 expression was found in the cell lines analyzed. These studies served to illustrate further the importance of the FL-FLT3 ligand-receptor system in the regulation of hematopoietic cells.
Leukemia 1995 Aug
PMID:Expression of FLT3 receptor and FLT3-ligand in human leukemia-lymphoma cell lines. 764 26

To investigate the role of the G-CSF receptor (G-CSFR) in mediating the action of G-CSF, WEHI-3B D+ murine myelomonocytic leukemia cells were transfected with a plasmid containing the murine G-CSFR gene. Overexpression of G-CSFR in transfected clones was demonstrated by northern blotting, binding of [125I]rhG-CSF and cross-linking experiments. A high level of expression of the G-CSFR did not promote or suppress cellular proliferation or initiate differentiation; however, exposure of transfected cells to G-CSF in suspension culture caused a large percentage of the population to enter a differentiation pathway, as determined by two markers of the mature state, the ability of cells to reduce nitroblue tetrazolium (NBT) and to express the differentiation antigen Mac-1 (CD11b) on the cell surface. Thus, upon treatment with 10 ng/ml of G-CSF, 60% or more of transfected cells exhibited NBT positivity; whereas, in contrast, nontransfected cells exhibited only 6% NBT positivity in response to G-CSF. An eightfold increase in Mac-1 expression over that of the parental line was also observed in transfected cells exposed to G-CSF. The growth rate of the transfected clones was decreased by exposure to G-CSF, presumably due to terminal differentiation. The findings suggest that the predominant function of G-CSF and its receptor in WEHI-3B D+ cells is to mediate differentiation and that the level of the G-CSFR portion of the signal transduction mechanism in this malignant cell line is important for a response to the maturation inducing function of the cytokine.
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PMID:Regulation of the differentiation of WEHI-3B D+ leukemia cells by granulocyte colony-stimulating factor receptor. 768 Jun 56


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