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)

We investigated the expression of p53 in paraformaldehyde-lysine-periodate fixed normal and chronic myelogenous leukemia (CML) hemopoietic cells with flow cytometry and two monoclonal antibodies, PAb1801 and the mutant-conformation-associated PAb240. With both antibodies p53 proteins were detected in more than 50% of CD34+ cells and in more than 95% neutrophils but were undetectable in the CD34- myeloid precursors. The expression of a p53 protein reactive with PAb240 was closely associated with CD34+/HLA-DR+ cells and with cells in active cell cycle, while the p53 protein recognized by PAb1801 was mainly found in CD34+/HLA-DR- cells and in cells in the G0/G1 phases of the cell cycle. Treatment of chronic-phase CML cells with p53 antisense oligonucleotides resulted in significantly increased numbers of granulocyte-macrophage colony-forming unit colonies in 12 of 17 cases studied. Slightly reduced granulocyte-macrophage colony-forming unit colony numbers were observed in one case and no change in the four others. In eight samples of normal bone marrow cells, treatment with antisense oligonucleotides showed no consistent changes in granulocyte-macrophage colony-forming unit numbers. Our data suggest that the expression of the tumor suppressor p53 is involved in the regulation of both normal and CML hemopoiesis and that the inhibition of p53 expression could modulate the proliferation of CML hemopoietic cells and possibly of normal cells.
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PMID:The involvement of "tumor suppressor" p53 in normal and chronic myelogenous leukemia hemopoiesis. 827 97

The number of survivors of childhood leukemia treated with growth hormone for growth retardation is increasing. The debate about the direct or indirect relationship of GH and insulin-like growth factor I (IGF-I) to the occurrence or recurrence of malignancy, especially in the case of GH therapy in patients with leukemia, is still unresolved. We, therefore, studied the effect of GH and IGF-I on bone marrow of patients with acute leukemia (ALL and AML) in diagnosis and recurrence and in chronic leukemia patients (CML) in remission. GH increased blast colony numbers by a mean of 68% and 77% at GH concentrations of 250 and 300 ng/ml, respectively. IGF-I increased blast colony numbers in ALL patients by 50, 93 and 105%, and in AML patients by 33, 58 and 65%, at IGF-I concentrations of 0.05, 0.25 and 0.5 ng/ml, respectively. In 3 CML patients in remission a granulocyte-macrophage colony forming assay did not reveal stimulation of peripheral blood blast colony formation by GH or IGF-I. Our in vitro data (as previously reported) suggest that GH and IGF-I may promote blast cell proliferation, and the supplemental administration of these peptides in leukemia patients in remission must be carefully monitored for early relapse. Additional studies on bone marrow cells of leukemic patients in remission are needed in order to examine the effects of GH and IGF-I on these cells.
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PMID:The effect of growth hormone and IGF-I on clonogenic growth of hematopoietic cells in leukemic patients during active disease and during remission--a preliminary report. 837 94

A 30-year-old Chinese man with acquired amegakaryocytic thrombocytopenic purpura (AATP) and a Ph chromosome is reported. At presentation, he had severe thrombocytopenia resulting in epistaxis, gingival bleeding, and ecchymoses, while other hematologic values were within the normal range. Bone marrow aspiration showed no megakaryocytes, with a normal appearance of erythroblastic and granulopoietic series. He failed to respond to prednisone treatment, and underwent a progress from isolated thrombocytopenia to full pancytopenia. At last he died of spontaneous intracranial hemorrhage. An in vitro culture for granulocyte-macrophage precursors showed very few colonies. Karyotypic analysis revealed a standard Ph chromosome translocation, t(9;22)(q34;q11), in the majority of bone marrow cells. Southern blot analysis using a 3' bcr-HE probe didn't detect a rearrangement within the bcr DNA sequence. This patient, in fact, was a myelodysplastic disorder, initially presenting as AATP. The diagnosis of chronic myelogenous leukemia was excluded on the basis of clinical and hematologic findings. The heterogeneity of Ph chromosome in myelodysplastic syndrome is discussed.
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PMID:Acquired amegakaryocytic thrombocytopenic purpura with a Philadelphia chromosome. 837 1

Interleukin-4 (IL-4) is a cytokine with pleiotropic activities. In normal bone marrow cultures grown in the presence of either granulocyte-macrophage colony-stimulating factor (GM-CSF) or interleukin-3 (IL-3), IL-4 suppresses granulocyte-macrophage colony-forming unit (CFU-GM) proliferation but it enhances the colony-stimulatory effect of granulocyte colony-stimulating factor (G-CSF). We studied the effect of IL-4 on chronic myelogenous leukemia (CML) bone marrow or peripheral blood cells from 30 patients using the CFU-granulocyte-erythrocyte-monocyte-megakaryocyte colony culture assay. In several repetitive experiments, IL-4 inhibited CFU-GM colony replication by 24 to 65% in a dose-dependent fashion at concentrations ranging from 0.01 to 10 micrograms/ml when patients' cells were cultured in the presence of erythropoietin alone or with phytohemagglutinin-conditioned medium, GM-CSF, or IL-3. The addition of 100 U/ml of IL-1 beta to the CML cultures partially reversed the inhibitory effect of IL-4. Incubation of CML low-density peripheral blood cells with IL-4 resulted in down-regulation of IL-1 beta and IL-6 production in three of four samples, suggesting that the suppressive effect of IL-4 is mediated by inhibition of IL-1 and by other mechanisms including inhibition of IL-6 production. In contrast to the stimulatory effect exerted by IL-4 on G-CSF-dependent CFU-GM progenitor proliferation in normal marrow, the addition of IL-4 to CML cultures grown in the presence of G-CSF resulted in a divergent effect: suppression of CML CFU-GM in two, stimulation in three, and no significant effect in two CML patients' samples. It is therefore possible that IL-4 may have an in vivo antiproliferative effect in a subpopulation of CML patients.
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PMID:Suppression of chronic myelogenous leukemia colony growth by interleukin-4. 842 75

Recombinant human interleukin-3 (IL-3) is well-tolerated according to phase I studies, and produces trilineage hematologic responses in patients with normal bone marrow. In addition, promising results have been obtained in a variety of bone marrow failure states. We studied IL-3 in 7 patients with markedly delayed engraftment after autologous bone marrow transplantation (ABMT) for hematologic malignancies (acute myeloid leukemia 4, chronic myeloid leukemia 1, myeloma 1, non-Hodgkin's lymphoma 1). All patients were red blood cell- and platelet transfusion-dependent, had an absolute neutrophil count (ANC) < 0.7 x 10(9)/L and failed to achieve a sustained ANC > 1.0 x 10(9)/L after receiving granulocyte-macrophage colony stimulating factor (GM-CSF) for 28 days. IL-3 was given daily for 21 days at 2 micrograms/kg/d (2 patients) and 5 micrograms/kg/d (5 patients). Toxicity was mild and consisted mostly of low-grade fever and malaise. No changes in platelet, hemoglobin or reticulocyte levels were observed. Four patients had at least a 2-fold increase in ANC at the end of IL-3 treatment. Five patients received GM-CSF 10 micrograms/kg/d subcutaneously for 7 to 10 days immediately after IL-3 and 4 had a further increase in ANC (median 1.7-fold, range 1.6- to 5.8-fold), but no change in platelet transfusion requirements. Hematopoietic colony assays of bone marrow cells obtained before and after treatment showed that granulocyte-macrophage colony-forming cell (CFU-GM) and erythroid blast-forming cell (BFU-E) levels were severely reduced and multilineage progenitors (CFU-GEMM) absent in all patients, and remained low after IL-3 treatment for 21 days. Sequential IL-3 and GM-CSF produced a significant but transient increase in the neutrophil counts of some patients. IL-3 appears to be of limited benefit in patients who are severely aplastic after ABMT and have very low levels of bone marrow progenitors.
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PMID:Interleukin-3 followed by GM-CSF for delayed engraftment after autologous bone marrow transplantation. 844 Mar 38

Inhibition of normal hemopoiesis is a regular finding in acute (AML) and chronic (CML) myelogenous leukemias and functional abnormalities of the hemopoietic microenvironment may be involved in this regard. In order to evaluate this possibility we studied the formation of adherent stromal cell layers (ASCL) in long term bone marrow cultures (LTBMC) of 7 patients with CML and 7 patients with AML and examined the ability of these ASCLs to support hemopoiesis after irradiation and a second inoculation of bone marrow cells. The formation of ASCLs was significantly impaired in CML and AML. These CML patients and 3 AML patients did not form typical ASCLs and the cellularity of these layers was greatly reduced. Colony forming unit granulocyte-macrophage (CFU-GM) production from bone marrow cells seeded on normal irradiated ASCLs peaked at week 3 and then gradually decreased by week 8. In CML and AML cocultures CFU-GM numbers decreased rapidly to zero by weeks 4-6 and did not differ significantly from the control cultures which did not contain preestablished ASCLs beginning from week 3. It is suggested that there may be a functional microenvironmental defect in CML and AML that may play a role in the pathogenesis of inhibition of normal hemopoiesis in these diseases.
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PMID:Defect of stromal microenvironment in long term bone marrow cultures of patients with acute and chronic myelogenous leukemias. 857 61

The Vav protooncogene is expressed almost exclusively in hematopoietic cells, but its role in regulating adult human hematopoietic cell development remains uncertain. To analyze Vav function in adult blood cell formation, we used antisense (AS) oligodeoxynucleotides (ODN) to disrupt its expression in normal and malignant human hematopoietic cells. Bone marrow or peripheral blood mononuclear cells (MNC) were obtained from consenting normal donors and patients with acute or chronic myelogenous leukemia (AML and CML, respectively) and polycythemia vera (PV). Adherent and T-cell-depleted (A-T-) MNC or CD34+ MNC were exposed to unmodified sense, antisense, or scrambled sequence ODN corresponding to codons 2-7 of Vav's mRNA sequence. Cells were then assayed for Vav mRNA expression by reverse transcription-polymerase chain reaction and Vav protein expression by Western binding. After showing that Vav-targeted AS ODN could specifically diminish Vav mRNA and protein expression, we assessed the ability of Vav-deficient cells to form myeloid and erythroid colonies in methyl-cellulose cultures. When normal CD34+ MNC were exposed to Vav AS ODN, no effect on colony-forming unit-granulocyte-macrophage (CFU-GM) or CFU-megakaryocyte colony formation was observed. In contrast erythroid colony growth was inhibited by a mean +/- SD of 62% +/- 16%. In patients with hematopoietic malignancies. Vav-targeted AS ODN inhibited CFU-GM colony formation in a sequence-specific and dose-dependent manner in 1 of 3 AML, 13 of 17 CML, and 2 of 2 PV patients. At the highest concentration used, the Vav AS ODN inhibited CFU-GM colony formation from 66% to 81% when compared with control cell colony growth. Burst-forming unit-erythroid (BFU-E) colony-formation was also assessed in 7 PV patients. The Vav-targeted AS ODN inhibited BFU-E colony formation in all by a mean +/- SD of 81% +/- 4%. These findings suggest that Vav function may not be easily complemented in a significant subset of normal adult erythroid progenitor cells and may also be necessary for myeloid progenitor cell growth in a variety of hematopoietic malignancies.
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PMID:A functional analysis of protooncogene Vav's role in adult human hematopoiesis. 860 21

Current assays of human committed-stem cells are of limited value in predicting the rate of engraftment or in assessing the integrity of the stem cell pool after allogeneic bone marrow (BM) transplantation (BMT). We have used a limiting dilution assay of mafosfamide-resistant progenitors (pre-colony-forming units [CFU]), which are ancestral to committed progenitors such as CFU-granulocyte-macrophage (GM) to analyze the kinetics of myeloid engraftment after BMT and to assess the size of the stem cell pool at intervals up to 66 months thereafter. In 24 patients transplanted for chronic myeloid leukemia in chronic phase (eight with matched unrelated donors and 16 with sibling donors), the rate of neutrophil engraftment correlated strongly with the number of pre-CFU transfused per kilogram recipient body weight (r = .7, P < .005) but not with CFU-GM per kilogram or nucleated cells per kilogram. In 25 patients studied 6 to 66 months after allogeneic BMT, the mean number of pre-CFU in the marrow was 3.1/10(5) mononuclear cells (MNC) (median, 3.47; range, 0.4 to 23.3), compared with 24.7/10(5) MNC (median, 27.3; range, 4.2 to 180) in 25 normal subjects. CFU-GM were also reduced in these patients, but with considerable overlap into the normal range (mean +/- SD: 54 +/- 45.6 per 10(5) MNC; normal, 129 +/- 61.6). Low pre-CFU but not low CFU-GM levels were associated with reduced peripheral blood white blood cell counts in post-BMT patients. Pre-CFU and CFU-GM levels were not related to the interval posttransplant and remained low for up to 66 months. We conclude that the pre-CFU assay measures a population of stem/progenitor cells that are important in the kinetics of engraftment after allogeneic BMT. Our data suggest that pre-CFU levels may remain low for some years after BMT in humans.
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PMID:Quantitation of mafosfamide-resistant pre-colony-forming units in allogeneic bone marrow transplantation: relationship with rate of engraftment and evidence for long-lasting reduction in stem cell numbers. 861 28

The novel hematopoietic growth factor FLT3 ligand (FL) is the cognate ligand for the FLT3, tyrosine kinase receptor (R), also referred to as FLK-2 and STK-1. The FLT3R belongs to a family of receptor tyrosine kinases involved in hematopoiesis that also includes KIT, the receptor for SCF (stem cell factor), and FMS. the receptor for M-CSF (macrophage colony- stimulating factor). Restricted FLT3R expression was seen on human and murine hematopoietic progenitor cells. In functional assays recombinant FL stimulated the proliferation and colony formation of human hematopoietic progenitor cells, i.e. CD34+ cord and peripheral blood, bone marrow and fetal liver cells. Synergy was reported for co-stimulation with G-CSF (granulocyte-CSF). GM-CSF (granulocyte-macrophage CSF), M-CSF, interleukin-3 (IL-3), PIXY-321 (an IL-3/GM-CSF fusion protein) and SCF. In the mouse, FL potently enhanced growth of various types of progenitor/precursor cells in synergy with G-CSF, GM-CSF, M-CSF, IL-3, IL-6, IL-7, IL-11, IL-12 and SCF. The well-documented involvement of this ligand-receptor pair in physiological hematopoiesis brought forth the question whether FLT3R and FL might also have a role in the pathobiology of leukemia. At the mRNA level FLT3R was expressed by most (80-100%) cases of AML (acute myeloid leukemia) throughout the different morphological subtypes (MO-M7), of ALL(acute lymphoblastic leukemia) of the immunological subtypes T-ALL and BCP-ALL (B cell precursor ALL including pre-pre B-ALL, cALL and pre B-ALL), of AMLL (acute mixed-lineage leukemia), and of CML (chronic myeloid leukemia) in lymphoid or mixed blast crisis. Analysis of cell surface expression of FLT3R by flow cytometry confirmed these observations for AML (66% positivity when the data from all studies are combined), BCP-ALL (64%) and CML lymphoid blast crisis (86%) whereas less than 30% of T-ALL were FLT3R+. The myeloid, monocytic and pre B cell type categories also contained the highest proportions of FLT3R+ leukemia cell lines . In contrast to the selective expression of the receptor, FL expression was detected in 90-100% of the various cell types of leukemia cell lines from all hematopoietic cell lineages. The potential of FL to induce proliferation of leukemia cells in vitro was also examined in primary and continuously cultured leukemia cells. The data on FL-stimulated leukemia cell growth underline the extensive heterogeneity of primary AML and ALL samples in terms of cytokine-inducible DNA synthesis that has been seen with other effective cytokines. While the majority of T-ALL (0-33% of the cases responded proliferatively; mean 11%) and BCP-ALL (0-30%; mean 20%) failed to proliferate in the presence of FL despite strong expression of surface FLT3R, FL caused a proliferative response in a significantly higher percentage of AML cases (22-90%; mean 53%). In the panel of leukemia cell lines examined only myeloid and monocytic growth factor- dependent cell lines increased their proliferation upon incubation with FL, whereas all growth factor-independent cell lines were refractory to stimulation. Combinations of FL with G-CSF, GM-CSF, M-CSF, IL-3, PIXY- 321 or SCF and FL with IL-3 or IL-7 had synergistic or additive mitogenic effects on primary AML and ALL cells, respectively. The potent stimulation of the myelomonocytic cell lines was further augmented by addition of bFGF (basic fibroblast growth factor), GM-CSF, IL-3 or SCF. The inhibitory effects of TGF-beta 1 (transforming growth factor-beta 1) on FL- supported proliferation were abrogated by bFGF. Taken together, these results demonstrate the expression of functional FLT3R capable of mediating FL- dependent mitogenic signaling in a subset of AML and ALL cases further underline the heterogeneity of AML and ALL samples in their proliferative response to cytokine.
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PMID:Expression of FLT3 receptor and response to FLT3 ligand by leukemic cells. 861 33

We investigated the effect of all-trans retinoic acid (ATRA) alone and in combination with interferon-alpha (IFN-alpha) on the granulocyte-macrophage (GM) colony formation of peripheral blood progenitors isolated from patients with chronic myeloid leukemia (CML) (n = 12) or other myeloproliferative disorders (n = 10) as well as from healthy controls (n = 7). The ATRA or IFN-alpha alone inhibited slightly, but not significantly, the GM colony growth in CML. Granulocyte-macrophage colony formation decreased significantly (P<0.05) when ATRA and IFN-alpha were combined (114 +/- 96 versus 74 +/- 53 colonies/10(4) mononuclear cells). The combination did not have any inhibitory effect on the other MPDs. In healthy controls, ATRA or IFN-alpha alone or their combination stimulated GM colony growth, the increase being from 22 +/- 9 to 39 +/- 16 colonies for ATRA (P<0.05), up to 47 +/- 12 colonies for IFN-alpha (P<0.05) and up to 50 +/- 19 colonies for the combination (P<0.05). In conclusion, ATRA combined with IFN-alpha inhibits GM colony growth in CML. This combination may be worth testing clinically as a treatment of CML.
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PMID:All-trans retinoic acid combined with interferon-alpha effectively inhibits granulocyte-macrophage colony formation in chronic myeloid leukemia. 863 19

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