UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proliferating populations of neutrophils, monocytes, eosinophils, erythroid cells, and T-lymphocytes from normal subjects or patients with various diseases can now be analysed by colony formation in semisolid cultures. These cultures accurately determine the number and proliferative activity of the precursor cells of each population and can also be used to monitor the levels of specific regulatory factors (for example, erythropoietin, colony-stimulating factor) in the serum or urine of such patients. Studies using semisolid cultures have shown that the leukemic cells in chronic and acute myeloid leukemia remain dependent on the normal regulator, granulocyte-macrophage colony-stimulating factor, for proliferation. The cultures have proved valuable in the prognostic assessment of acute leukemic patients and in monitoring impending changes in the clinical status of patients with acute or chronic myeloid leukemia or myeloproliferative disorders.
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PMID:In-vitro cloning techniques for hemopoietic cells: clinical applications. 33 9

Granulocyte colony-stimulating factor (G-CSF) is known to act on the neutrophilic granulocytes from chronic myelogenous leukemia (CML) patients to induce neutrophil alkaline phosphatase (NAP) activity. Gamma-interferon (IFN-gamma) and granulocyte-macrophage colony-stimulating factor (GM-CSF) have been reported to suppress NAP induction with G-CSF. We confirmed that this inhibitory effect of GM-CSF is accompanied by the decrease of the NAP mRNA level. Moreover, we found that the simultaneous addition of retinoic acid completely neutralized this inhibitory effect of GM-CSF. Recovery of the NAP activity brought about by the retinoic acid was also accompanied by the increase of NAP mRNA level. These results indicate that retinoic acid neutralizes the inhibitory effect of GM-CSF on the induction of NAP activity through the change of the NAP mRNA level.
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PMID:Retinoic acid acts to neutralize the inhibitory effect of granulocyte-macrophage colony-stimulating factor (GM-CSF) on alkaline phosphatase activity of neutrophils that is induced by granulocyte colony-stimulating factor (G-CSF). 137 89

The effect of the antitumorally active hexadecylphosphocholine (He-PC) on the colony-stimulating factor (CSF)-dependent growth of human hemopoietic progenitor cells was studied. At low concentrations He-PC stimulated the CSF-dependent progenitor cell colony growth of three patients suffering from chronic myeloid leukemia (CML) and of three of six patients without hematological disorders. The stimulating effect was up to eight times that of the control using granulocyte colony-stimulating factor (G-CSF) and twofold in the case of granulocyte-macrophage colony-stimulating factor (GM-CSF), whereas only slight effects were noted when interleukin 3 (IL-3) or the combination of the CSFs was used as an additive. The stimulatory effects observed are far below the He-PC concentrations that are usually required for the in vitro growth arrest of cancer cells. At higher concentrations He-PC displayed suppressive effects, most pronounced in the case of G-CSF-dependent colony growth. At the concentrations investigated, He-PC failed to show any changes in the composition and distribution of specific colonies. He-PC by itself had no mitogenic activity. This indicates that He-PC acts as a co-stimulator. In the cases of myeloproliferative diseases and in the case of a patient without known hematological disorder, removal of accessory cells did not abrogate the He-PC-enhanced colony growth by CSFs. Thus, the stimulatory effect of low-dose He-PC seems not to be mediated by accessory cells.
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PMID:Hexadecylphosphocholine stimulates the colony-stimulating factor-dependent growth of hemopoietic progenitor cells. 137 41

Normal and leukemic bone marrow cells were studied in the presence of tumor necrosis factor alpha (TNF) together with granulocyte colony-stimulating factor (G-CSF) or granulocyte-macrophage colony-stimulating factor (GM-CSF) in clonogenic assays. Cells of four normal volunteers, three patients with chronic myeloid leukemia, 16 patients with acute non-lymphocytic leukemia (ANLL), and six patients with myelodysplastic disorders were compared. Our results show four patterns of response to TNF in the presence of G-CSF or GM-CSF: (a) increased sensitivity to inhibition by TNF relative to the response of normal bone marrow cells; (b) response indistinguishable from normal bone marrow cells; (c) refractoriness to TNF at all doses; (d) synergistic growth stimulation with both G-CSF and GM-CSF. Leukemic cells of eight additional ANLL patients were incubated in a 3H-thymidine incorporation assay, and three patterns of reactivity to TNF were observed: (a) decreased 3H-thymidine uptake in the presence of TNF; (b) no response to TNF at all doses; and (c) increased 3H-thymidine uptake in response to TNF. Leukemic cells of 26 ANLL patients of various FAB-types were examined for the production of TNF mRNA by Northern blot analysis. TNF mRNA could be detected in cells of eight patients, predominantly in the M5B FAB type. Our data show that the growth response of leukemic cells to TNF is not uniform and was not determined by FAB category.
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PMID:Modulation of leukemic cell growth by tumor necrosis factor: action and expression in myeloid leukemia. 137 61

Polyethylene glycol (PEG) modification improves the pharmacological properties of proteins, usually extending plasma half-life and concomitantly increasing in vivo bioactivity, reducing both antigenicity and immunogenicity, and increasing solubility and resistance to proteolysis. Despite these established benefits, few PEG proteins are in use. Current coupling methods are either traumatic for the protein or involve lengthy and difficult procedures to activate monomethoxyPEG (MPEG). We have applied a new coupling method that allows coupling of MPEG directly to proteins under physiological conditions. Using this method with recombinant human (rh)granulocyte-macrophage colony-stimulating factor (GM-CSF) we were able to construct biologically active PEG-GM-CSF. Fast protein liquid chromatography (FPLC) and phase-partitioning confirmed the presence of PEG modification, and the former was used to fractionate modified and unmodified material. Bioactivity was measured in colony assays of normal human bone marrow cells and by tritiated thymidine uptake (of chronic myeloid leukemia cells and TF-1 cells). With both uptake and colony assays, using unfractionated material, we observed only a modest reduction in biological activity. Assays of FPLC-fractionated material confirmed that much of the bioactivity of the PEG-GM-CSF preparations was due to the modified species and any residual unmodified GM-CSF. Species uncontaminated by tresylmonomethoxyPEG (TMPEG; which was somewhat inhibitory in the thymidine uptake assay and eluted over a broad region of the FPLC profile) had no significant reduction in activity, but we cannot rule out the possibility that PEG-GM-CSF species eluting elsewhere in the profile had modest reduction of activity. Subcutaneous injection into mice confirmed the anticipated improved half-life in vivo and demonstrated a longer uptake from the injection site. This is, as far as we are aware, the first successful construction of PEG-GM-CSF with conserved biological activity.
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PMID:Polyethylene glycol (PEG)-modified granulocyte-macrophage colony-stimulating factor (GM-CSF) with conserved biological activity. 150 37

Experiments were undertaken to investigate the molecular basis of primitive hematopoietic progenitor cell regulation in both the long-term culture system and in methylcellulose, particularly with a view to characterizing factors either able or unable to influence the behaviour of primitive leukemic cells from patients with chronic myeloid leukemia (CML). Long-term cultures of CML cells with or without irradiated normal marrow feeder layers were initiated from peripheral blood cells of CML patients with high white blood cell counts. Three weeks later the effect of exogenously added transforming growth factor-beta 1 (TGF-beta 1) on progenitor cycling status was examined. A single addition of 5 ng/ml TGF-beta 1 was able to reversibly arrest the otherwise uninterrupted turnover of primitive leukemic erythroid and granulopoietic progenitors for a period of up to 7 days both in the presence and absence of a normal adherent cell population. When TGF-beta 1 was incorporated into methylcellulose cultures, its ability to inhibit colony formation by CML progenitors showed the same differential activity on primitive cell types exhibited by normal progenitors. Dose-response curves for analogous populations of normal and leukemic cells were indistinguishable. Increasing the concentration of granulocyte-macrophage colony-stimulating factor (GM-CSF) in methylcellulose colony assays decreased the sensitivity displayed by normal clonogenic cells to TGF-beta 1 and no differences were detectable when CML cells were used in such regulator competition experiments. These findings support a general model of primitive hematopoietic cell regulation in which entry into S-phase is determined at the intracellular level by multiple convergent pathways that may deliver either positive or negative signals from activated cell surface receptors for distinct extracellular factors. The present study shows for the first time that primitive CML progenitors exposed to TGF-beta 1 in vitro can be transiently blocked in a noncycling state for several days without loss of viability and that the mechanisms responsible for the emergence and maintenance of a clonal population of CML cells in vivo do not appear to involve changes in their sensitivity to TGF-beta 1. It is thus unlikely that the heightened proliferative activity exhibited by primitive CML progenitors both in vivo and in long-term culture can be explained by an abnormality in the intracellular mechanisms normally activated by TGF-beta 1 receptor-ligand binding. We suggest that primitive CML cells are either defective in their ability to see (or activate) endogenously produced TGF-beta 1, or are defective in their responsiveness to another, undefined, regulator.
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PMID:Granulocyte-macrophage colony-stimulating factor modulation of the inhibitory effect of transforming growth factor-beta on normal and leukemic human hematopoietic progenitor cells. 151 2

The tetrapeptide acetyl-N-Ser-Asp-Lys-Pro (AcSDKP) inhibits the entry into DNA synthesis of murine spleen colony-forming units (CFU-S) and protects these cells during chemotherapy. This synthetic peptide also inhibits the growth of normal human marrow progenitors granulocyte-macrophage colony-forming units (CFU-GM) and erythroid burst-forming units (BFU-E) and decreases their percentage in DNA synthesis at nanomolar concentration. In view of its clinical application as a marrow protector, we have investigated its effects on malignant cells. Studies were carried out on HL-60 cells and on fresh leukemic cells from patients with either chronic myeloid leukemia (CML) or acute myeloid leukemia (AML). Results showed that AcSDKP, whatever the doses used, did not modify the proliferation of both HL-60 cells and AML cells even when enhanced by stimulating factors such as interleukin 3 or granulocyte-macrophage colony-stimulating factor (GM-CSF). In addition, no change in the number and the percentage in S-phase of both HL-60 clonogenic cells and CML progenitors was observed. Our data clearly demonstrate that the tetrapeptide AcSDKP was ineffective on leukemic cells and therefore by acting selectively on normal progenitors represents a potent therapeutical agent for the protection of normal bone marrow progenitors during chemotherapy.
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PMID:The tetrapeptide AcSDKP, an inhibitor of the cell-cycle status for normal human hematopoietic progenitors, has no effect on leukemic cells. 154 96

Recent work has demonstrated the ability of lymphoblastic leukemias of pre-B- and T-cell origin to grow in severe combined immunodeficient (SCID) mice with a pattern reminiscent of the human clinical disease. Here, we investigated the possibility of engrafting human myeloid leukemias using both established cell lines and primary patient material. Whereas the two growth factor-independent cell lines K562 and U937 grew aggressively and induced leukemia in these animals, three other myeloid cell lines which require interleukin 3 or granulocyte-macrophage colony-stimulating factor for continuous growth in vitro failed to induce disease. Primary bone marrow and peripheral blood cells from five out of seven patients with different types of myeloid leukemias (undifferentiated, megakaryoblastic, monoblastic and chronic myelogenous leukemia in blast crisis) induced patterns of leukemic infiltration that were distinct for each leukemia subtype. The diagnosis of leukemia in SCID mice was established by microscopic detection of myeloblasts in the bone marrow, peripheral blood and, in some instances, in extramedullary sites, including the central nervous system and gonads. The karyotype and phenotype of the blasts recovered from mouse tissues were identical to those of the original patient cells. Moreover, human specific ALU sequences were amplified from the bone marrow DNA by polymerase chain reaction. Despite their ability to grow in vivo by serial transfers in SCID mice, the leukemic cells recovered from mouse tissues could not be maintained in vitro, even in the presence of recombinant cytokines. Overall, these data indicate that the SCID mouse may represent a useful animal model for human myeloid leukemias and for the development of new pharmacological and molecular approaches to therapy.
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PMID:The severe combined immunodeficient (SCID) mouse as a model for human myeloid leukemias. 157 Jan 53

The safety and possible efficacy of recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) were evaluated in 40 consecutive patients who received transplants from unrelated donors. rhGM-CSF was administered by 2-hour daily intravenous infusion from day 0 to day 20 or day 27 after the marrow infusion. These patients were compared with 78 historical patients who received transplants from unrelated donors who did not receive rhGM-CSF. The rhGM-CSF-treated patients were older (P = .037) and were treated less frequently in laminar air flow rooms (P = .005) than were control patients. However, the rhGM-CSF-treated group had a higher proportion of "good risk" patients with chronic myelogenous leukemia in chronic phase (P = .006) than did the comparison group (P = .017), rendering comparisons of transplant-related complications not meaningful. rhGM-CSF was well tolerated and did not adversely increase the incidence of graft rejection or increase the incidence and severity of acute graft-versus-host disease. The median day the absolute neutrophil count reached 500/mm3 in patients who received rhGM-CSF was day 21, which was not different from that of historical patients. Nevertheless, the numbers of febrile days and septicemic episodes within the first 28 days in patients who received rhGM-CSF were less than in historical patients. The probability of nonrelapse mortality at 1 year in patients who received rhGM-CSF was 22%. In view of the retrospective nature of the control group, we cannot conclusively determine whether rhGM-CSF administration was beneficial. A prospective, randomized controlled study of rhGM-CSF is required to confirm these suggestive data.
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PMID:Phase II trial of recombinant human granulocyte-macrophage colony-stimulating factor in patients undergoing allogeneic bone marrow transplantation from unrelated donors. 158 9

Mast cell growth factor (MGF), the ligand for the c-kit receptor, has been shown to be a hematopoietic growth factor that preferentially stimulates the proliferation of immature hematopoietic progenitor cells (HPC). We studied the effect of MGF on the in vitro growth of clonogenic leukemic precursor cells in the presence or absence of interleukin-3 (IL-3), granulocyte-macrophage colony-stimulating factor (GM-CSF), and/or erythropoietin (EPO). Leukemic blood and bone marrow cells from patients with various types of acute myeloid leukemia (AML), chronic myeloid leukemia (CML) in chronic phase, as well as bone marrow samples from patients with myelodysplastic syndromes (MDS) were studied. MGF as a single factor did not induce significant colony formation by clonogenic leukemic precursor cells. In the presence of IL-3 and/or GM-CSF, MGF weakly stimulated the colony formation by clonogenic precursor cells from patients with AML. In contrast, in the presence of IL-3 and/or GM-CSF, MGF strongly induced both size and number of leukemic colonies from patients with CML in chronic phase. Furthermore, in the presence of EPO, MGF strongly stimulated erythroid colony formation by CML precursor cells. Cytogenetic analysis of the colonies showed that all metaphases after 1 week of culture were derived from the leukemic clone. In patients with MDS, MGF strongly stimulated myeloid colony formation in the presence of IL-3 and/or GM-CSF (up to fourfold), and erythroid colony formation in the presence of EPO (up to eightfold). Not only the number, but also the size of the colonies increased. In the presence of MGF, the percentage of normal metaphases increased in three patients tested after 1 week of culture compared with the initial suspension, suggesting that the normal HPC were preferentially stimulated compared with the preleukemic precursor cells. In the absence of exogenous EPO and in the presence of 10% human AB serum, MGF in the presence of IL-3 and/or GM-CSF induced erythroid colony formation from normal bone marrow and patients with MDS or CML, illustrating that MGF greatly diminished the EPO requirement for erythroid differentiation. These results indicate that MGF may be a candidate as a hematopoietic growth factor to stimulate normal hematopoiesis in patients with acute myeloid leukemia, or with myelodysplastic syndromes.
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PMID:Effect of mast cell growth factor (c-kit ligand) on clonogenic leukemic precursor cells. 163 26

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