Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023473 (chronic myeloid leukemia)
 18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lineage-negative (lin-) normal and chronic myelogenous leukemia (CML) marrow blast populations were obtained by negative selection and subsequently separated on the basis of size by velocity sedimentation. The three subpopulations of lin- blasts obtained were enriched for F8 (the more primitive small blasts), F11 (blasts intermediate in size), and F13 (the more mature large blasts). We examined the morphological and phenotypic characteristics and cell cycle status of the subpopulations and determined the responsiveness of granulocyte-monocyte progenitors (colony-forming units/granulocyte-macrophage) derived from each subpopulation to mast cell growth factor in combination with granulocyte (G-CSF) or granulocyte-macrophage (GM-CSF) colony-stimulating factors alone and in combination. Morphological assessment revealed that an increased proportion of CML lin- blasts exhibited early cytoplasmic maturation as evidenced by the appearance of azurophilic (nonspecific) granules in the cytoplasm. Although the percentages of CML and normal small blasts expressing CD34 were similar, the proportion of CML lin- blasts expressing CD34 declined in the intermediate and more mature large lin- blast subpopulations by about 50%, whereas the percentage of CD34+ normal blasts remained essentially the same, indicating an earlier loss of CD34 expression by CML lin- blasts. In addition, the percentages of CML small blasts expressing CD33 were higher than normal (26-61% versus 0-16%, respectively), indicating that a higher proportion of CML small lin- blasts had a more mature phenotype. Mast cell growth factor addition to cultures stimulated by G-CSF, GM-CSF, or G-CSF plus GM-CSF, exerted the greatest synergistic effect (increased colony number and size) in the normal small and intermediate lin- blast cultures, but mast cell growth factor had considerably less effect, or no effect, in cultures of comparable CML subpopulations, indicating that CML lin- progenitors had a somewhat lower requirement for multiple growth factors. The findings suggest that the differences observed between normal and CML marrow subpopulations are proportional differences and that a greater proportion of CML lin- blast subpopulations exhibit characteristics associated with a more advanced stage of maturation than comparable normal lin- blast subpopulations.
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PMID:Characterization of lineage-negative blast subpopulations derived from normal and chronic myelogenous leukemia bone marrows and determination of their responsiveness to human c-kit ligand. 767 76

Steel factor (SLF, c-kit ligand), a potent costimulating cytokine in vitro for myeloid progenitor cells from normal donors, is currently being evaluated in clinical trials for effects on hematopoiesis. Based on a preliminary observation that colony-stimulating factor (CSF)-responsive myeloid progenitor cells (CFU-GM) from a few patients with acute myeloid leukemia (AML) did not respond to the costimulating effects of SLF, we evaluated responsiveness of bone marrow or blood CFU-GM from 26 patients with either AML, chronic myeloid leukemia (CML) or myelodysplastic syndrome (MDS) to the effects in vitro of SLF and/or granulocyte-macrophage CSF (GM-CSF). Cells from all 26 patients responded to the stimulating effects of GM-CSF, but marked heterogeneity was detected in each disease category to the costimulating effects of SLF. Nine of 13 patients with AML, 2 of 6 patients with CML and 4 of 7 patients with MDS had clonogenic cells that did not respond significantly to the costimulating effects of SLF. In a more limited study of cells from patients with MDS, it was noted that if the CFU-GM of that patient did not respond to SLF enhancement of CSF-induced colony formation, neither did the erythropoietin (Epo)-dependent erythroid (BFU-E) or multipotential (CFU-GEMM) cells of that patient (3 cases of refractory anemia [RA] evaluating bone marrow and in 1 case blood progenitors as well). If CFU-GM responded, BFU-E and CFU-GEMM responded (bone marrow from 1 patient with chronic myelomonocytic leukemia [CMMol]). Clinical criteria did not readily distinguish between patients who had SLF-responsive vs. -nonresponsive clonogenic cells. While the mechanistic reason for this heterogeneity in responsiveness is not clear, these differences should be carefully considered for possible clinical trials with SLF in patients with acute and chronic myeloid leukemia and MDS.
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PMID:Differential responses of myeloid progenitor cells from patients with myeloid leukemia and myelodysplasia to the costimulating effects of steel factor in vitro. 768 84

Bone marrow and peripheral blood samples from 36 patients with Philadelphia chromosome positive chronic myelogenous leukemia (Ph+ CML) (30 in chronic phase, four in accelerated phase, and two in blastic crisis) were tested with two CD56 monoclonal antibodies (My31 and Eric 1) using the Facscan flow cytometer. Two- and three-color fluorescence experiments indicated that CD13+/CD33+ myeloid cells from 19 out of the 36 patients were positive for CD56 in 12-77% of the cells. In contrast, no CD56 positivity was documented in myeloid cells from bone marrow (BM) of healthy donors. Immunocytochemical staining (APAAP technique) of CML peripheral blood (PB) and BM slides showed that CD56 expression was detectable from the myelocyte stage with the strongest staining in the metamyelocyte stage. Neutrophils were negative both by flow cytometry and APAAP analysis. In individual CML patients, an increasing number of CD56+ cells were recovered with progressively higher density cuts (1.065-1.077 g/ml), supporting the concept that the antigen level tends to increase during myeloid differentiation. Furthermore, 19% of CML patients coexpressed CD56 and CD34 antigens in 10-45% of the CD34+ cells. The myeloid nature of CD56+/CD34+ CML cells has been ascertained by granulocyte-macrophage colony-forming unit (CFU-GM) assays on CD56+ cells sorted on FACS. Furthermore, in six out of eight CML patients in whom we performed a comparative BM and PB analysis, we found that the CD56 expression was brighter and the number of positive cells significantly higher in the peripheral blood myeloid cells as compared to their BM counterpart. In short-term liquid cultures, low doses (50 U/ml) of alpha interferon down-regulated the CD56 expression in CML cells, accompanied by a significant reduction of the Ph positivity. In conclusion, the expression of CD56 on CML myeloid elements seems to represent an aberrant phenomenon which could affect the cell homing mechanisms and, probably, the pattern of tumor cell dissemination. In patients with CD56+ CML, its detection could be further used as a means of monitoring patients undergoing bone marrow transplantation, since its reappearance is associated with early relapse of the disease.
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PMID:Abnormal expression of N-CAM (CD56) adhesion molecule on myeloid and progenitor cells from chronic myeloid leukemia. 769 92

It has been suggested that the BCR-ABL gene of chronic myeloid leukemia (CML) is not uniformly expressed in Philadelphia (Ph)-positive cells, and that BCR-ABL gene expression precludes transcription of the normal BCR or ABL genes. Therefore, we have analyzed granulocyte-macrophage colony-forming unit (CFU-GM) colonies derived from peripheral blood of 11 CML patients by cytogenetic and by reverse transcriptase-polymerase chain reaction (PCR) amplification of BCR-ABL, ABL-BCR, BCR, and ABL. All CFU-GM colonies with analyzable metaphases were found to contain a Ph chromosome. In 2 patients, the initial PCR screening failed to detect BCR-ABL transcripts in 2 of 11 and 1 of 7 Ph-positive colonies. However, when amplification for BCR-ABL was repeated in quintuplicate, all but 1 colony from a single patient showed one or more positive results. Amplifications of the four genes in each colony showed that BCR-ABL, ABL-BCR, and the normal BCR and ABL were simultaneously expressed in the majority of CFU-GM colonies. Replicate PCR tests for BCR and for ABL in colonies initially scored as negative also uncovered previously undetected positive amplifications. We conclude that BCR-ABL expression does not suppress transcription from the normal BCR and ABL genes, and that Ph-positive, BCR-ABL-negative colonies derived from peripheral blood CFU-GM are rare or nonexistent.
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PMID:BCR-ABL, ABL-BCR, BCR, and ABL genes are all expressed in individual granulocyte-macrophage colony-forming unit colonies derived from blood of patients with chronic myeloid leukemia. 1169 40

Macrophage inflammatory protein-1 alpha (MIP-1 alpha) is a negative regulator of normal haemopoietic stem cell proliferation. Insensitivity to MIP-1 alpha of progenitor cells in chronic myeloid leukaemia (CML) could, therefore, explain myeloid expansion in this disease. We compared the effects of MIP-1 alpha on progenitor cells in normal marrow and in the blood and marrow of patients with chronic phase CML. Plastic-adherent precursors of granulocyte-macrophage colony-forming cells (P delta progenitors) are very primitive progenitor cells and are detected by incubating them for 1 week in liquid culture and assaying the CFU-GM released into the supernatant. Direct CFU-GM assays were also used in this study. Daily addition of 300 ng/ml/day of MIP-1 alpha to P delta progenitor assays of normal marrow cells suppressed CFU-GM production by 50% and in CML bone marrow P delta cultures by 20-30%. The response of CML blood P delta progenitors was heterogeneous. In five of nine cases, CFU-GM production was doubled in the presence of MIP-1 alpha and in four of nine cases, it was reduced. Addition of 100-500 ng MIP-1 alpha to direct assays of CFU-GM stimulated colony formation by normal marrow and CML blood cells to a similar extent.
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PMID:Progenitor cells in the blood and marrow of patients with chronic phase chronic myeloid leukaemia respond differently to macrophage inflammatory protein-1 alpha. 776 32

The bone marrow microenvironment supports and regulates the proliferation and differentiation of hematopoietic cells. Dysregulated hematopoiesis in chronic myelogenous leukemia (CML) is caused, at least in part, by abnormalities in CML hematopoietic progenitors leading to altered interactions with the marrow microenvironment. The role of the microenvironment itself in CML has not been well characterized. We examined the capacity of CML stroma to support the growth of long-term culture-initiating cells (LTC-IC) obtained from normal and CML marrow. The growth of normal LTC-IC on CML stroma was significantly reduced compared with normal stroma. This did not appear to be related to abnormal production of soluble factors by CML stroma because normal LTC-IC grew equally well in Transwells above CML stroma as in Transwells above normal stroma. In addition, CML and normal stromal supernatants contained similar quantities of both growth-stimulatory (granulocyte colony-stimulating factor (CSF), interleukin-6, stem cell factor, granulocyte-macrophage CSF, and interleukin-1 beta) and growth-inhibitory cytokines (transforming growth factor-beta, macrophage inflammatory protein-1 alpha, and tumor necrosis factor-alpha). The relative proportion of different cell types in CML and normal stroma was similar. However, polymerase chain reaction and fluorescence in situ hybridization studies showed the presence of bcr-abl-positivo cells in CML stroma, which were CD14+ stromal macrophages. To assess the effect of these malignant macrophages on stromal function, CML and normal stromal cells were separated by fluorescence-activated cell sorting into stromal mesenchymal cell (CD14-) and macrophage (CD14+) populations. CML and normal CD14- cells supported the growth of normal LTC-IC equally well. However, the addition of CML macrophages to normal or CML CD14- mesenchymal cells resulted in impaired progenitor support. This finding indicates that the abnormal function of CML bone marrow stroma is related to the presence of malignant macrophages. In contrast to normal LTC-IC, the growth of CML LTC-IC on allogeneic CML stromal layers was not impaired and was significantly better than that of normal LTC-IC cocultured with the same CML stromal layers. These studies demonstrate that, in addition to abnormalities in CML progenitors themselves, abnormalities in the CML marrow microenvironment related to the presence of malignant stromal macrophages may contribute to the selective expansion of leukemic progenitors and suppression of normal hematopoiesis in CML.
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PMID:Abnormal function of the bone marrow microenvironment in chronic myelogenous leukemia: role of malignant stromal macrophages. 778 Jan 47

Juvenile chronic myelocytic leukemia (JCML) is a rare disorder of early childhood. Characteristic of JCML are the progressive appearance of high levels of fetal hemoglobin (HbF), reflecting a true reversion to a fetal type of erythropoiesis, and the presence of colony-forming cells able to grow in vitro spontaneously in the absence of growth factors. To better understand the relationship between the erythroid abnormalities and the leukemic process, we analyzed the expression pattern of specific genes related to erythroid differentiation--GATA-1, EPOR, alpha-globin, beta-globin, and gamma-globin genes--in JCML peripheral blood (PB) cells and in vitro-derived colonies. Northern blot analysis of PB cells from five JCML patients indicated levels of GATA-1 transcripts much higher than those usually found in other types of leukemic cells, and S1 nuclease protection assay detected significantly increased expression of gamma-globin mRNA. Reverse transcription-polymerase chain reaction (RT-PCR) analysis of single granulocyte-macrophage colony-forming unit (CFU-GM) colonies, obtained in vitro in the absence of added growth factors from four JCML patients, detected GATA-1, EPOR, and globin (alpha and gamma) transcripts in most of the colonies tested, in contrast with control CFU-GM from normal bone marrow, which were positive only for GATA-1. Single JCML colonies were tested for the presence of two different transcripts; whereas alpha- and gamma-globin genes appeared mostly coexpressed, beta-globin mRNA was detected only in a minority of the gamma-globin-positive colonies, indicating that the leukemic pattern of hemoglobin synthesis is mainly fetal. In addition, the leukemic cells occurring during blast crisis of one of our patients displayed the typical features of a stem cell leukemia (CD34+, CD19-, CD2-, myeloperoxidase-). In this sorted CD34+ population, we detected the presence of a marker chromosome, der(12)t(3;12), previously identified in bone marrow cells at diagnosis and an expression pattern superimposable to that of the JCML colonies, consistently displaying a high gamma-globin:beta-globin mRNA ratio. The expression of erythroid markers within populations of leukemic cells, both in vivo and in vitro, supports the hypothesis that abnormal JCML erythroid cells may originate from the same mutated progenitor that sustains the growth of the leukemic cells.
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PMID:Constitutive expression of GATA-1, EPOR, alpha-globin, and gamma-globin genes in myeloid clonogenic cells from juvenile chronic myelocytic leukemia. 779 40

The expression of the human myeloid cell nuclear differentiation antigen (MNDA) was observed specifically in cells of the granulocyte-macrophage lineage in our earlier reports. The specificity of MNDA expression for cells in the granulocyte-macrophage lineage was reexamined in cell lines established from patients with Philadelphia chromosome-positive chronic myeloid leukemia. Cell lines that expressed MNDA exhibited myeloid cell features and granulocyte or monocyte differentiation could be induced in vitro, while cell lines exhibiting properties of very early stage cells or multipotential cells did not express MNDA. Cells originating from cases of Burkitt's lymphoma were negative. By contrast, three lymphoblastoid cell lines (immortalized in vitro with Epstein-Barr virus) were weakly positive and MNDA was up-regulated by interferon-alpha (IFN-alpha) treatment. As we reported previously, MNDA mRNA level in adherent monocytes is elevated by IFN-alpha; in this study, we further assessed MNDA expression in in vitro monocyte-derived macrophages. Three additional agents (endotoxin, phytohemagglutinin, and phorbol ester) and other conditions that affect function, cytokine production, differentiation, and/or growth of monocytes were examined for their ability to alter MNDA expression. The results varied with the agent, cell type, and stage of differentiation. Changes in MNDA expression occurred slowly (hours to days), suggesting that MNDA could mediate changes realized over a long period. The results also reveal a discordance in certain MNDA positive cells between steady-state levels or changes in levels of protein and mRNA indicating that the regulation of MNDA expression occurs at more than one point. Changes in MNDA expression are consistent with a role in opposing macrophage differentiation and activation of monocytes/macrophages.
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PMID:Regulation and specificity of MNDA expression in monocytes, macrophages, and leukemia/B lymphoma cell lines. 789 Aug 14

In this report we have evaluated the cytotoxic activity of 3'-azido-3'-deoxythymidine (AZT) used in combination with hydroxyurea (HU), an agent which disrupts de novo thymidylate synthesis. In 2 chronic myeloid leukemia (CML) cell lines, K562 and RWLeu4, the IC50 of AZT was 8 mumol/l and 28 mumol/l respectively, after a 5-day exposure, and the IC50 of HU was 80 mumol/l and 70 mumol/l respectively. In the presence of various concentrations of HU (1 mumol/l-100 mumol/l) the IC50 of AZT in both cell lines was significantly reduced and subsequent isobologram analysis revealed synergistic activity. Similarly, analysis of [3H]AZT incorporation into the DNA fraction of these cells indicated that exposure to AZT+HU resulted in an increased incorporation of AZT into DNA when compared to incubation in AZT alone. Biochemically, this effect appeared to be related to a decrease in dTTP pools caused by HU. The combination AZT+HU has also been demonstrated to exert a synergistic effect in inhibiting colony growth of bone marrow granulocyte-macrophage progenitors (CFU-GM) from patients affected by Ph1+ CML in chronic phase. These results are promising in view of a possible in vivo utilization of this drug combination.
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PMID:Hydroxyurea enhances 3'-azido-3'-deoxythymidine (AZT) cytotoxicity in human chronic myeloid leukemia models. 802 Jun 29

In the current study, we used a monoclonal antibody-based enzyme-linked immunosorbent assay and bioassay to assess leukemia inhibitory factor (LIF) protein levels, activity, and function in supernatants of 59 adherent layers derived from acute and chronic myelogenous leukemia, myelodysplastic syndrome, and hairy cell leukemia patients and from normal controls. We demonstrate that biologically active LIF protein is constitutively produced and secreted by cultured bone marrow stromal cells from all of the studied subjects. Furthermore, various cytokines can alter endogenous LIF protein levels. Twenty-four h of exposure to recombinant human (rh) interleukin (IL) 4 (100 units/ml) significantly decreased LIF protein levels in adherent layer conditioned media [median base line level, 2.6 ng/ml; range, 1.6-8.0 ng/ml; median post rhIL-4 exposure levels, 1.9 ng/ml; range, 0.9-5.8 ng/ml (n = 7; P = 0.022)]. In contrast, rhIL-1 beta and rh tumor necrosis factor alpha consistently increased LIF protein levels. In the samples exposed to 50 units/ml rhIL-1 beta, median base line LIF level was 2.6 ng/ml; median post-LIF level was 9.0 ng/ml (n = 8; P = 0.014). In the two samples exposed to rh tumor necrosis factor alpha (200 units/ml), LIF levels increased from baseline levels of 2.6 and 2.7 ng/ml to postexposure levels of 7.7 and 12.2 ng/ml, respectively. Finally, the presence of LIF may be relevant to both normal and malignant hematopoietic processes as evidenced by: (a) LIF protein levels in adherent layer conditioned media were significantly elevated in samples from patients with a spectrum of hematological neoplasms [acute myelogenous leukemia: median level, 3.0 ng/ml (range, 1.6-11.0 ng/ml); myelodysplastic syndrome: median level, 4.5 ng/ml (range 1.4-15.5 ng/ml); hairy cell leukemia; median level, 3.5 ng/ml (range 2.2-10.3 ng/ml); chronic myelogenous leukemia-chronic phase: median level, 4.35 ng/ml (range 0.3-19.0 ng/ml); and chronic myelogenous leukemia-blast crisis: median level, 6.25 ng/ml (range 0.7-20.3 ng/ml)] as compared to samples from normal individuals (median level, 2.0 ng/ml; range, 0.7-4.6 ng/ml; P < 0.05); and (b) in normal controls, in vitro abrogation of endogenous LIF bioactivity by neutralizing antibody decreased the number of committed granulocyte-macrophage hemopoietic progenitors.
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PMID:Leukemia inhibitory factor in long-term adherent layer cultures: increased levels of bioactive protein in leukemia and modulation by IL-4, IL-1 beta, and TNF-alpha. 813 98


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