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 describe a case of cold agglutinin disease (CAD) following allogeneic bone marrow transplantation. This 36-year-old male developed CAD 3 weeks after allogeneic bone marrow transplantation for chronic myelogenous leukemia. Cyclosporin A and methotrexate had been administered to prevent graft-versus-host disease. Other agents administered included cytomegalovirus hyperimmune globulin and recombinant human G-CSF. Pericarditis preceded the development of CAD. The characterization of cold agglutinin (CA) was monoclonal IgM-kappa with anti-Pr antigen specificity, probably derived from the engrafted donor lymphocytes. The administration of prednisolone led to transient improvement. The CA titer decreased without further treatment 12 weeks after transplant.
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PMID:Cold agglutinin disease following allogeneic bone marrow transplantation. 819 73

We report a 19-year-old female with blastic transformation of chronic myelogenous leukemia whose blasts had CD33 and CD4 phenotypes, although no significant characteristics were detected by morphological and histochemical analysis. In a colony assay with hematopoietic growth factors, the blasts proliferated and differentiated into myelo-monocytic lineage, particularly in the presence of GM-CSF or IL-3 + G-CSF. The blasts transformed from CML were assumed to be myelo-monocytic progenitor cells, corresponding to GM colonies. Blastic transformation expressing such a phenotype has not been reported previously.
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PMID:CD33, CD4-double positive blastic transformation in a patient with chronic myelogenous leukemia. 836 89

Most cytostatic drugs exert their effect on cells in active cell cycle. To improve the effect of cytostatic drugs we have tried, prior to treatment in vitro, to recruit tumor cells from G0 with growth factors. Leukemic cells from the bone marrows of 26 patients with AML and CML in blast crisis were incubated with G-CSF, GM-CSF and IL-3 for 24 h prior to incubation with cytostatic drugs. The cells were incubated with mitoxantrone, etoposide or daunorubicin for 1 h, or with Ara-C continuously. Prior to treatment, 4 patients with AML received GM-CSF for 24 h, after which blast cells from bone marrow were incubated with cytostatic drugs. After incubation with the cytostatic drugs, cells were cultured in a suspension culture for 4 d. The drug effect was determined with a bioluminescence ATP method. Leukemic cells were significantly stimulated by all three cytokines compared to an untreated control. GM-CSF and IL-3 increased the amount of cells 3- to 4-fold and G-CSF increased the amount 3 times compared to untreated cells. G-CSF significantly enhanced the cytotoxic effect of daunorubicin, mitoxantrone, etoposide and Ara-C by 20-40%, which GM-CSF and IL-3 showed a significantly increased toxicity for Ara-C only. Although the cytokines induced a higher percentage of cells killed with the cytostatic drugs, proliferation of the remaining cells resulted in an increased total number of cells from 1.5 to 3 times compared to the unstimulated incubations. We conclude that cytokines induce a higher level of toxicity of cytostatic drugs on leukemic cells, but the increased proliferation of the remaining cells may offset the clinical benefit.
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PMID:Effect of cytokines on the toxicity of cytostatic drugs on leukemic cells in vitro and in vivo. 859 80

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

Characteristic of Philadelphia (Ph)+ chronic myelogenous leukemia (CML) is the presence of the chimeric BCR/ABL (p210) protein possessing elevated protein tyrosine kinase activity relative to the normal c-abl tyrosine kinase. Our previous studies demonstrated subtle differences in the growth, phenotypic and morphologic characteristics of the most primitive subpopulations of primary lin-Ph+ chronic phase CML blasts and comparable primary lin- normal blasts. Recently, in comparing proteins phosphorylated on tyrosine in these cell populations, we reported a prominent 62 kDa phosphotyrosyl (P-tyr) protein constitutively present in primary primitive lin- CML chronic phase blasts which was virtually undetectable in primary primitive lin- normal blasts. In the present studies, we demonstrate that this P-tyr p62 from primary primitive lin- chronic phase CML blasts co-immunoprecipitates with ras-GAP. Furthermore, in addition to the p210 protein, we show in whole cell lysates the presence of other clearly consistent but less prominent P-tyr proteins with molecular weights of approximately 155, 140, 110, 55 and 45 kDa as well as more minor P-tyr proteins of approximately 190, 85, 52, 42 and 39 kDa constitutively present in primary primitive lin- chronic phase CML blasts. In analyzing proteins tyrosine phosphorylated in primary primitive lin- normal blasts in response to various hematopoietic growth factors, we found a striking similarity in the phosphorylation of four major (approximately 140, 110, 62 and 56 kDa) and three minor (approximately 51, 45 and 42 kDa) P-tyr proteins after stimulation with c-kit ligand and the P-tyr proteins constitutively phosphorylated in primary primitive lin- chronic phase CML blasts. Other growth factors tested (ie GM-CSF, G-CSF, IL-3, FLT3 ligand and EPO) were much less active or stimulated phosphorylation of other proteins. It is provocative that at least seven proteins rapidly and transiently phosphorylated on tyrosine in the c-kit ligand signal transduction pathway in lin- normal blasts may be constitutive substrates for the p210 activated tyrosine kinase in comparable lin- chronic phase CML blasts. In addition, it is intriguing that some of the biological effects on hematopoietic progenitors attributed to the c-kit ligand may be similar to some of the observed biological consequences of the p210 protein, including survival and expansion of a more mature stem cell population, probably at the time of lineage commitment rather than at the level of the earliest self-renewing stem cell.
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PMID:c-kit ligand stimulates tyrosine phosphorylation of a similar pattern of phosphotyrosyl proteins in primary primitive normal hematopoietic progenitors that are constitutively phosphorylated in comparable primitive progenitors in chronic phase chronic myelogenous leukemia. 863 31

Twenty-three patients with chronic myelogenous leukemia in early chronic phase (ECP) and not previously treated with alpha-interferon (IFN-alpha) (10 patients), in ECP but pretreated with IFN-alpha (<12 months) (seven patients) and in late chronic phase (LCP) pretreated with IFN-alpha (>12 months) (six patients) underwent autografting with Philadelphia (Ph) chromosome-negative blood progenitor cells (BPCs) (20 patients), or partially/totally Ph-positive BPCs (three patients), previously mobilized during the early phase of recovery after aplasia induced by intensive chemotherapy. The conditioning regimen consisted of high-dose chemotherapy alone or followed by total body irradiation (TBI). Recombinant G-CSF was given after BPCs infusion on day +8. All patients in ECP not pretreated with IFN-alpha are alive and five of them are Ph-negative in the marrow after autografting. Six of seven patients autografted with Ph-negative BPCs in the group of ECP pretreated with IFN-alpha (<12 months) are alive and two of them are still Ph-negative in the marrow. In the same group, the only patient transplanted with partially Ph-positive BPCs, died of blastic transformation 2 months after reinfusion. Three patients (two patients autografted with Ph-negative BPCs and one patient with Ph-positive BPC) in the group of LCP pretreated with IFN-alpha >12 months are alive but Ph-positive after autografting. The other three patients of the same group died of procedure-related toxicity (two patients) and blastic transformation (one patient). Seventeen patients (10/10 ECP not pretreated with IFN-alpha; 5/7 ECP pretreated with IFN-alpha and 2/6 LCP pretreated with IFN-alpha) of 23 autografted patients were treated with IFN-alpha +/- IL-2. Toxicities after autografting were mostly related to myelosuppression, particularly thrombocytopenia. All patients of the two groups pretreated with IFN-alpha developed febrile episodes during the aplastic phase following BPCs reinfusion. No patient autografted in ECP and those not pretreated with IFN-alpha developed febrile episodes. This is also probably due to the use of i.v. antibiotic and antimicotic prophylaxis when neutrophils were < or = 1 x 10(9)/l after autografting. Greater toxicity was observed in patients pretreated with IFN-alpha, being lethal in two cases in LCF. In conclusion, the "in vivo' manipulation approach employed in our institution is a safe procedure and it results in a high collection of Ph-negative cells in the blood if the cells are harvested: (1) in early chronic phase; (2) in early phase of recovery after chemotherapy-inducing aplasia; (3) in patients not extensively pretreated with IFN-alpha. The data presented here have shown encouraging trends in chronic phase of CML and offer new perspective for patients without an HLA-identical donor or for patients who do not respond to IFN-alpha.
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PMID:High-dose chemo-radiotherapy followed by autologous Philadelphia chromosome-negative blood progenitor cell transplantation in patients with chronic myelogenous leukemia. 864 Jan 67

Ten patients with Ph+ chronic myeloid leukemia (CML) were treated with idarubicin, cytarabine and etoposide followed by G-CSF to harvest Ph-negative progenitor cells. Six were in first chronic phase (CP1), and four beyond CP1. Between two and six aphereses (median 3, total 36) were performed starting 9-26 days (median 14.5) after chemotherapy when the leukocyte count was 0.6-4.7 x 10(9)/l (median 1.2). 1.3-3.6 x 10(8) mononuclear cells/kg (median 2.8), 0-128.4 x 10(4) CFU-GM/kg (median 1.2; seven patients) and 0.3-25.1 x 10(6) CD34+ cells/kg (median 9.8; seven patients) were collected. Seven of 27 harvests showing metaphases were 100% Ph-negative, 11 partially Ph-negative, and nine were 100% Ph+. All three patients with 100% Ph-negative collections were in CP1 and within 4-26 months of diagnosis. Four of six CP1 patients showed significant cytogenetic response compared with none of four beyond CP1 (P = 0.036). The absolute neutrophil count remained < 0.5 x 10(9)/l for 9-44 days (median 15.5) following chemotherapy. Four patients (three Ph-negative) were autografted after 16 mg/kg busulfan (n = 2) or 200 mg/m2 melphalan (n = 2). One of the three patients receiving Ph-negative cells died of graft failure, and two are alive with 15% and 50% Ph-negative cells at 15 and 11 months on interferon-alpha. We conclude that it is possible to harvest Ph-negative cells after myelosuppressive chemotherapy in some CML patients treated early in the course of CP1. However, in view of lack of consistent response, investigation of alternative approaches is necessary.
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PMID:Myelosuppressive chemotherapy to mobilize normal stem cells in chronic myeloid leukemia. 867 50

A relatively simple and non-toxic out-patient-based regimen for the mobilization of Philadelphia-negative (Ph-ve) mononuclear cells in chronic myeloid leukaemia (CML) was evaluated in 10 patients, nine in stable chronic phase and one in accelerated phase. They received oral hydroxyurea at a mean dose of 3.5 g/m2 daily for 7 d, followed by 300 micrograms of G-CSF daily until the last day of harvesting. In the nine chronic-phase patients the mean number of days from the end of hydroxyurea to the commencement of harvesting was 14.5 (range 10-18). The patient in accelerated phase recovered and was harvested after 6 d. The mean number of aphereses performed was 3.4. Adequate numbers of stem cells were obtained in 9/10 patients judged by our usual criteria. Side-effects were mild in comparison to published intravenous schedules. No patients lost their hair. Five (50%) patients required admission with neutropenic fever which responded to antibiotics in all cases. Four (40%) patients developed a transient rash and four (40%) experienced mild oral mucostis. This level of toxicity enabled half of the patients to be treated entirely on an out-patient basis. The harvest products were analysed for cells belonging to the leukaemic clone by conventional cytogenetics, FISH and PCR. All were PCR positive. The mean Ph positivities by cytogenetics and FISH were comparable at 18.1% and 15% respectively. Half the patients had > 98% normal metaphases. We conclude that this approach is comparable in efficacy to published intravenous regimens and significantly less toxic. It can be safely used at diagnosis before interferon therapy commences.
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PMID:Mobilization of Philadelphia-negative peripheral blood mononuclear cells in chronic myeloid leukaemia using hydroxyurea and G-CSF (filgrastim). 885 64

The growth factor of hematopoiesis, G-CSF and GM-CSF, are now extremely useful in stem cell transplantation (SCT). Their main indications are given in this short paper. They accelerate hematopoietic recovery and they reduce morbidity and mortality after autologous SCT. GM-CSF can protect from hematopoietic toxicity of Gancyclovir and can reduce the mortality related to autologous and allogeneic graft failure. The combination of GM-CSF, G-CSF and erythropoietin can replace autologous SCT after a high dose therapy. G and GM-CSF are used to mobilise peripheral stem cells and allow peripheral blood stem cell transplantation. G-CSF given after a chemotherapy is able to mobilise Philadelphia negative stem cells in chronic myelocytic leukemia patients. Finally allogeneic peripheral blood stem cell mobilised by G-CSF in healthy donor is now a new field of clinical trials.
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PMID:[Contribution of hematopoietic growth factors and especially in the context of grafts of hematopoietic stem cells]. 888 Nov 2

We previously reported that serum granulocyte colony stimulating factor levels of chronic myelogenous leukemia patients in chronic phase (CP) are significantly lower than those of healthy persons or other hematological malignancies as assessed by chemiluminescence enzyme immunoassay (CLEIA). In this study, we clarify the difference in serum G-CSF levels between patients with primary myelofibrosis (PMF, myelofibrosis with myeloid metaplasia; MMM) and those with secondary myelofibrosis caused by several hematological disorders, using the same highly sensitive CLEIA method. It is clearly demonstrated that serum G-CSF levels of the patients with PMF and chronic neutrophilic leukemia (CNL) are extremely low, similar to those in patients with CML in CP in this study. From these data, it is speculated that the abnormal proliferation of granulocytes in PMF and CNL may not be due to the stimulation by G-CSF, and that a negative feedback mechanism might exist between peripheral granulocytes and serum G-CSF.
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PMID:Serum G-CSF levels in primary myelofibrosis and chronic neutrophilic leukemia as estimated by the highly sensitive chemiluminescence enzyme immunoassay (CLEIA). 888 66

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