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)

Hematological malignancies accompanied by eosinophilia are reviewed in relation to chromosomal changes and cytokine production. Eosinophilia accompanied by hematological malignancies can be divided into two groups. In some myelogenous leukemias, including acute myelomonocytic leukemia with eosinophilia (FAB M4Eo), acute myeloblastic leukemia (FAB M2 t(8;21)) and chronic myelogenous leukemia, neoplastic cells themselves appear to differentiate into eosinophils. On the other hand, transformed tumor cells secrete some eosinophil-stimulating cytokines, including interleukin-3, interleukin-5 and granulocyte-macrophage colony-stimulating factor and these cytokines stimulate the proliferation of normal eosinophil precursors in some lymphoid malignancies, including some types acute lymphoblastic leukemia (especially with t(5;14)) or malignant lymphoma, including Hodgkin's lymphoma and adult T cell lymphoma/leukemia.
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PMID:[Hematological malignancies with eosinophilia]. 849 61

Despite the marked expansion of leukemic cells observed in the hematopoietic system of chronic myeloid leukemia (CML) patients, there is clinical and experimental evidence that normal nonclonal cells persist in the bone marrow (BM) and peripheral blood (PB) of patients in the early chronic phase. In this study, we attempt to select the benign progenitor-enriched population from the PB of CML patients. The CD34+ cells isolated from the PB of 12 CML patients in the chronic phase were treated with low doses (5 or 10 micrograms/mL) of 5-fluorouracil (5-FU). We expanded these cells for 7 days in liquid cytokine-mediated cultures. This expansion in the presence of interleukin-1 (IL-1) plus stem cell factor (SCF) plus IL-3 or leukemia inhibitory factor (LIF) plus SCF plus IL-3 seemed at least to preserve the initial clonogenic potential of CD34+ and 5-FU-resistant CD34+ cells. For the presence of BCR-ABL, mRNA from each of the 12 patients was studied by reverse-transcriptase-polymerase chain reaction (RT-PCR) on 10-15 pooled CFU-GM colonies plucked from methylcellulose cultures of starting and expanded populations. Although all PCR results were positive for colonies harvested before liquid culture, we were able to identify BCR-ABL-negative colonies from an expanded CD34+ population cultured in the presence of recombinant cytokines in 11 of 12 patients studied. 5-FU pretreatment of CML CD34+ cells markedly reduced their clonogenic potential and growth factor-mediated cell proliferation but favored higher frequency of BCR-ABL-free colonies. In conclusion, these data show that 5-FU-resistant CD34+ cells from the PB of CML patients contain normal progenitor cells, which can be selected and expanded in short-term cytokine-mediated cultures.
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PMID:5-Fluorouracil-resistant CD34+ cell population from peripheral blood of CML patients contains BCR-ABL-negative progenitor cells. 854 39

We examined the expression of c-Mpl (MPL) and c-Mpl ligand (ML) gene in hematopoietic cells in individuals with and without myeloproliferative disorders (MPD) and leukemic cell lines by RT-PCR. The MPL gene transcripts were detected in normal CD34+ cells, platelets, megakaryocytes and monocytes, while the ML gene was expressed in CD34+ cells, megakaryocytes, T cells, monocytes and bone marrow fibroblasts, as well as liver tissue. The ML gene product produced in the bone marrow microenvironment might, in part, be involved in hematopoiesis. The MPL gene expression was detected in platelets and peripheral blood mononuclear cells from the majority of patients with MPD including chronic myelocytic leukemia (CML), polycythemia vera (PV), essential thrombocythemia (ET) and primary myelofibrosis (PMF). In contrast, the ML gene expression was found in the majority of ET and CML patients, but not in PV or PMF patients. These findings suggest that even in MPD the megakaryocytopoiesis depends on the MPL signal transduction system, and that in ET and CML, the ML production by mononuclear cells in the bone marrow microenvironment might play a part in the higher megakaryocytopoiesis observed in these diseases. Both the MPL and ML gene expression were detected in all the leukemic cell lines tested, suggesting that this cytokine/receptor system is involved in cell growth through autocrine and paracrine systems.
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PMID:Expression of c-Mpl and c-Mpl ligand gene in hematopoietic cells of individuals with and without myeloproliferative disorders and leukemia cell lines. 858 67

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

Sweet's syndrome is defined as acute febrile neutrophilic dermatosis. Characteristic features are fever; peripheral neutrophilia; and painful cutaneous nodules and plaques on the face, neck, trunk, and limbs. Biopsy specimens of these lesions show a mature neutrophilic infiltrate of the dermis. Vasculitis is absent. Sweet's syndrome is associated with malignancy in approximately 20% of reported cases. The pathogenesis is unknown. The authors describe Sweet's syndrome in a 39-year-old man 5 weeks after splenic irradiation for chronic myelogenous leukemia. Treatment with parenteral corticosteroids resulted in dramatic improvement of the patient's condition. The authors discuss the diagnosis of Sweet's syndrome and the fact that it is thought to be cytokine-induced.
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PMID:Sweet's syndrome after splenic irradiation for chronic myelogenous leukemia. 869 Jun 26

Using chronic myelogenous leukemia (CML) as a model, we tested the hypothesis that cytokine-independent growth of leukemia cells results from aberrant activation of cytokine signaling pathways. The STAT5 (signal transducer and activator of transcription) protein, which is activated transiently in normal myeloid cells by cytokines such as GM-CSF (granulocyte-macrophage colony stimulating factor), was constitutively activated in cell lines derived from CML patients, even in the absence of GM-CSF. STAT5 was also activated in primary mouse bone marrow cells acutely transformed by the CML-specific BCR-ABL oncogene, but not by the serine kinase oncogene v-MOS. Reconstitution experiments in non-hematopoietic cells show that STAT5 activation by BCR-ABL occurs independent of cytokines. Results using BCR-ABL mutants which specifically uncouple connections to known signal transduction pathways show that STAT5 activation is kinase dependent and correlates directly with ability to confer cytokine independent growth in hematopoietic cells. BCR-ABL also activates JAK kinases, which may provide a mechanism for STAT activation. These findings are consistent with a role for STAT5 in hematopoietic transformation by BCR-ABL.
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PMID:Constitutive activation of STAT5 by the BCR-ABL oncogene in chronic myelogenous leukemia. 871 Mar 63

We have established a human stromal cell line derived from the bone marrow of a patient with chronic myelogenous leukemia in blast crisis. This cell line, designated FS-1, exhibits a fibroblastoid morphology and does not express any hematopoietic cell marker tested. FS-1 is negative for alpha-naphthyl acetate esterase, acetylated LDL, von Willebrand factor, and shows no phagocytosis. This cell line is positive for acid phosphatase, alkaline phosphatase, collagen types I, III, IV, and fibronectin. cDNA from FS-1 cells was subjected to amplification by the polymerase chain reaction to assess the constitutive expression of several cytokine genes. Transcripts for interleukin (IL)-6, IL-7, macrophage colony-stimulating factor (M-CSF), and stem cell factor (SCF) were detected in FS-1 cells. IL-6 and SCF also were detected in the culture supernatants of FS-1 at a concentration of 95 pg/ml and 21.2 pg/ml, respectively. These data show that FS-1, established from a human bone marrow, is a stromal cell line which was not generated using transfection with SV40 T antigen. FS-1 cells may be useful in supporting human hematopoietic cells for experimental manipulation.
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PMID:Establishment and characterization of a novel human bone marrow stromal cell line, FS-1. 872 43

We report a patient with chronic myeloid leukaemia who underwent allogeneic marrow transplantation (BMT) but had a molecular relapse 5 months and haematological relapse 15 months after BMT. Since therapy with alpha-interferon had been ineffective he received leucocyte infusions from his sibling donor. He developed acute graft-versus-host disease and became aplastic 6 weeks later. Despite donor marrow infusion and cytokine stimulation marrow aplasia persisted for 13 weeks. Then, donors' peripheral blood stem cells were given after conditioning with cyclophosphamide and antithymocyte globulin resulting in trilineage engraftment of donor haemopoiesis. Since then, the patient has been in continuous molecular remission for 11 months.
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PMID:Graft failure after donor leucocyte infusion in relapsed chronic myeloid leukaemia: successful treatment with cyclophosphamide and antithymocyte globulin followed by peripheral blood stem cell infusion. 875 19

Hypereosinophilic syndromes may result either from eosinophilic differentiation of a clone of neoplastic cells or from reactive eosinophilia. In other patients HES is idiopathic. It appears likely that in many patients the "idiopathic' hypereosinophilic syndrome is actually a chronic myeloproliferative disorder. Those cases showing an increase of blast cells or a demonstrable clonal cytogenetic abnormality should be classified as eosinophilic leukaemia. In other cases the neoplastic nature of the disease can be recognized only in retrospect when a granulocytic sarcoma or AMI, develops. A few cases of idiopathic HES are consequent on cytokine secretion whereas others remain idiopathic at the time of death. When eosinophilia occurs as a feature of an acute or chronic myeloid leukaemia or a chronic myeloproliferative disorder the eosinophils are usually part of the leukaemic clone. However, eosinophilia in association with acute lymphoblastic leukaemia is usually reactive. Rare cases have a biphenotypic leukaemia/lymphoma with both eosinophils and lymphoid cells arising from a mutant pluripotent stem cell.
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PMID:Eosinophilic leukaemias and the idiopathic hypereosinophilic syndrome. 885 31

Interleukin-11 (IL-11) is a novel cytokine that has been shown to stimulate human hematopoietic progenitors including the CD34+ CD33- DR- early progenitors. IL-11 has little effect on its own but it synergizes with other hematopoietic growth factors. We investigated the recovery of human myeloid progenitors incubated with IL-11 alone or in combination with other cytokines, including stem cell factor (SCF), interleukin-3 (IL-3) and granulocyte macrophage colony-stimulating factor (GM-CSF) following their in vitro treatment with ARA-C (10(-9) M) or Eilatin (10(-7) M). IL-11 in combination with IL-3 and GM-CSF markedly increased CFU-C colony growth pre- and post-ARA-C or Eilatin incubation from CML and normal individual bone marrow (BM) cells. Similarly, IL-11 alone or in combination with other cytokines increased cell recovery following 7-day suspension culture. A decrease in BCR/ABL fusion product was observed (by FISH analysis) after incubation of BM cells from CML patients in liquid culture for 7 days with 10(-9) M ARA-C or 10(-7) M Eilatin in the presence of IL-11 alone or in combination with other cytokines. These results indicate that following cytoreductive therapy IL-11 may enhance to a greater extent the growth of normal myeloid progenitors than the malignant clone and may, therefore, be of clinical importance for CML patients treated with chemotherapeutic agents.
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PMID:Synergistic effects of interleukin-11 with other growth factors on the expansion of hematopoietic progenitors from normal individuals and chronic myeloid leukemia patients resistant to treatment with cytosine arabinoside or eilatin. 894 85

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